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RISC-V (pronounced "risk-five" where five refers to the number of generations of
RISC In computer engineering, a reduced instruction set computer (RISC) is a computer designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set comput ...
architecture Architecture is the art and technique of designing and building, as distinguished from the skills associated with construction. It is both the process and the product of sketching, conceiving, planning, designing, and constructing building ...
that were developed at the
University of California, Berkeley The University of California, Berkeley (UC Berkeley, Berkeley, Cal, or California) is a public land-grant research university in Berkeley, California. Established in 1868 as the University of California, it is the state's first land-grant u ...
since 1981) is an
open standard An open standard is a standard that is openly accessible and usable by anyone. It is also a prerequisite to use open license, non-discrimination and extensibility. Typically, anybody can participate in the development. There is no single definition ...
instruction set architecture In computer science, an instruction set architecture (ISA), also called computer architecture, is an abstract model of a computer. A device that executes instructions described by that ISA, such as a central processing unit (CPU), is called an ' ...
(ISA) based on established RISC principles. Unlike most other ISA designs, RISC-V is provided under
open source license An open-source license is a type of license for computer software and other products that allows the source code, blueprint or design to be used, modified and/or shared under defined terms and conditions. This allows end users and commercial compan ...
s that do not require fees to use. A number of companies are offering or have announced RISC-V hardware, open source operating systems with RISC-V support are available, and the instruction set is supported in several popular software toolchains. As a RISC architecture, the RISC-V ISA is a load–store architecture. Its floating-point instructions use
IEEE 754 The IEEE Standard for Floating-Point Arithmetic (IEEE 754) is a technical standard for floating-point arithmetic established in 1985 by the Institute of Electrical and Electronics Engineers (IEEE). The standard addressed many problems found i ...
floating-point. Notable features of the RISC-V ISA include instruction bit field locations chosen to simplify the use of
multiplexers In electronics, a multiplexer (or mux; spelled sometimes as multiplexor), also known as a data selector, is a device that selects between several analog or digital input signals and forwards the selected input to a single output line. The sele ...
in a CPU, a design that is architecturally neutral, and most-significant bits of
immediate value In computer science and software programming, a value is the representation of some entity that can be manipulated by a program. The members of a type are the values of that type. The "value of a variable" is given by the corresponding mapping ...
s placed at a fixed location to speed
sign extension Sign extension (abbreviated as sext) is the operation, in computer arithmetic, of increasing the number of bits of a binary number while preserving the number's sign (positive/negative) and value. This is done by appending digits to the most signi ...
. The instruction set is designed for a wide range of uses. The base instruction set has a fixed length of
32-bit In computer architecture, 32-bit computing refers to computer systems with a processor, memory, and other major system components that operate on data in 32-bit units. Compared to smaller bit widths, 32-bit computers can perform large calculation ...
naturally aligned instructions, and the ISA supports variable length extensions where each instruction can be any number of
16-bit 16-bit microcomputers are microcomputers that use 16-bit microprocessors. A 16-bit register can store 216 different values. The range of integer values that can be stored in 16 bits depends on the integer representation used. With the two mos ...
parcels in length. Subsets support small
embedded system An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
s,
personal computer A personal computer (PC) is a multi-purpose microcomputer whose size, capabilities, and price make it feasible for individual use. Personal computers are intended to be operated directly by an end user, rather than by a computer expert or tec ...
s,
supercomputer A supercomputer is a computer with a high level of performance as compared to a general-purpose computer. The performance of a supercomputer is commonly measured in floating-point operations per second ( FLOPS) instead of million instructions ...
s with vector processors, and warehouse-scale
19 inch rack A 19-inch rack is a standardized frame or enclosure for mounting multiple electronic equipment modules. Each module has a front panel that is wide. The 19 inch dimension includes the edges or "ears" that protrude from each side of the equ ...
-mounted
parallel computers Parallel computing is a type of computing, computation in which many calculations or Process (computing), processes are carried out simultaneously. Large problems can often be divided into smaller ones, which can then be solved at the same time. ...
. The instruction set specification defines 32-bit and
64-bit In computer architecture, 64-bit Integer (computer science), integers, memory addresses, or other Data (computing), data units are those that are 64 bits wide. Also, 64-bit central processing unit, CPUs and arithmetic logic unit, ALUs are those ...
address space In computing, an address space defines a range of discrete addresses, each of which may correspond to a network host, peripheral device, disk sector, a memory cell or other logical or physical entity. For software programs to save and retrieve st ...
variants. The specification includes a description of a
128-bit While there are currently no mainstream general-purpose processors built to operate on 128-bit ''integers'' or addresses, a number of processors do have specialized ways to operate on 128-bit chunks of data. Representation 128-bit processors co ...
flat address space variant, as an extrapolation of 32 and 64 bit variants, but the 128-bit ISA remains "not frozen" intentionally, because there is yet so little practical experience with such large memory systems. The project began in 2010 at the University of California, Berkeley, but now many current contributors are volunteers not affiliated with the university. Unlike other academic designs which are typically optimized only for simplicity of exposition, the designers intended that the RISC-V instruction set be usable for practical computers. As of June 2019, version 2.2 of the user-space ISA and version 1.11 of the privileged ISA are
frozen Frozen may refer to: * the result of freezing * a paralysis response in extreme cases of fear Films * ''Frozen'' (1997 film), a film by Wang Xiaoshuai * ''Frozen'' (2005 film), a film by Juliet McKoen * ''Frozen'' (2007 film), a film by Sh ...
, permitting software and hardware development to proceed. The user-space ISA, now renamed the Unprivileged ISA, was updated, ratified and frozen as version 20191213. An external debug specification is available as a draft, version 0.13.2.


Rationale

CPU design Processor design is a subfield of computer engineering and electronics engineering (fabrication) that deals with creating a processor, a key component of computer hardware. The design process involves choosing an instruction set and a certain exec ...
requires design expertise in several specialties: electronic digital logic,
compiler In computing, a compiler is a computer program that translates computer code written in one programming language (the ''source'' language) into another language (the ''target'' language). The name "compiler" is primarily used for programs that ...
s, and
operating system An operating system (OS) is system software that manages computer hardware, software resources, and provides common services for computer programs. Time-sharing operating systems schedule tasks for efficient use of the system and may also in ...
s. To cover the costs of such a team, commercial vendors of computer designs, such as
Arm Ltd. Arm is a British semiconductor and software design company based in Cambridge, England. Its primary business is in the design of ARM processors (CPUs). It also designs other chips, provides software development tools under the DS-5, RealView an ...
and
MIPS Technologies MIPS Technologies, Inc., formerly MIPS Computer Systems, Inc., was an American fabless semiconductor design company that is most widely known for developing the MIPS architecture and a series of RISC CPU chips based on it. MIPS provides proce ...
, charge
royalties A royalty payment is a payment made by one party to another that owns a particular asset, for the right to ongoing use of that asset. Royalties are typically agreed upon as a percentage of gross or net revenues derived from the use of an asset o ...
for the use of their designs,
patent A patent is a type of intellectual property that gives its owner the legal right to exclude others from making, using, or selling an invention for a limited period of time in exchange for publishing an enabling disclosure of the invention."A p ...
s and
copyright A copyright is a type of intellectual property that gives its owner the exclusive right to copy, distribute, adapt, display, and perform a creative work, usually for a limited time. The creative work may be in a literary, artistic, education ...
s. They also often require
non-disclosure agreement A non-disclosure agreement (NDA) is a legal contract or part of a contract between at least two parties that outlines confidential material, knowledge, or information that the parties wish to share with one another for certain purposes, but wish ...
s before releasing documents that describe their designs' detailed advantages. In many cases, they never describe the reasons for their design choices. RISC-V was begun with a goal to make a practical ISA that was open-sourced, usable academically, and deployable in any hardware or software design without royalties. Also, justifying rationales for each design decision of the project are explained, at least in broad terms. The RISC-V authors are academics who have substantial experience in computer design, and the RISC-V ISA is a direct development from a series of academic computer-design projects, especially Berkeley RISC. RISC-V was originated in part to aid all such projects. To build a large, continuing community of users and thereby accumulate designs and software, the RISC-V ISA designers intentionally support a wide variety of practical use cases: compact, performance, and low-power real-world implementations without over-architecting for a given
microarchitecture In computer engineering, microarchitecture, also called computer organization and sometimes abbreviated as µarch or uarch, is the way a given instruction set architecture (ISA) is implemented in a particular processor. A given ISA may be impl ...
. The requirements of a large base of contributors is part of the reason why RISC-V was engineered to address many possible uses. The designers' primary assertion is that the instruction set is the key interface in a computer as it is situated at the interface between the hardware and the software. If a good instruction set were open and available for use by all, then it can dramatically reduce the cost of software by enabling far more reuse. It should also trigger increased competition among hardware providers, who can then devote more resources toward design and less for software support. The designers maintain that new principles are becoming rare in instruction set design, as the most successful designs of the last forty years have grown increasingly similar. Of those that failed, most did so because their sponsoring companies were financially unsuccessful, not because the instruction sets were technically poor. Thus, a well-designed open instruction set designed using well-established principles should attract long-term support by many vendors. RISC-V also encourages academic usage. The simplicity of the integer subset permits basic student exercises, and is a simple enough ISA to enable software to control research machines. The variable-length ISA provides room for instruction set extensions for both student exercises and research, and the separated privileged instruction set permits research in operating system support without redesigning compilers. RISC-V's open intellectual property paradigm allows derivative designs to be published, reused, and modified.


History

The term ''
RISC In computer engineering, a reduced instruction set computer (RISC) is a computer designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set comput ...
'' dates from about 1980. Before then, there was some knowledge that simpler computers can be effective (e.g., John Cocke at IBM Research), but the design principles were not widely described. Simple, effective computers have always been of academic interest, and resulted in the RISC instruction set
DLX The DLX (pronounced "Deluxe") is a RISC processor architecture designed by John L. Hennessy and David A. Patterson, the principal designers of the Stanford MIPS and the Berkeley RISC designs (respectively), the two benchmark examples of RISC desi ...
for the first edition of ''Computer Architecture: A Quantitative Approach'' in 1990 of which David Patterson was a co-author, and he later participated in the RISC-V origination. DLX was intended for educational use; academics and hobbyists implemented it using
field-programmable gate array A field-programmable gate array (FPGA) is an integrated circuit designed to be configured by a customer or a designer after manufacturinghence the term '' field-programmable''. The FPGA configuration is generally specified using a hardware d ...
s, but it was never truly intended for commercial deployment. ARM CPUs, versions 2 and earlier, had a public-domain instruction set and are still supported by the
GNU Compiler Collection The GNU Compiler Collection (GCC) is an optimizing compiler produced by the GNU Project supporting various programming languages, hardware architectures and operating systems. The Free Software Foundation (FSF) distributes GCC as free software ...
(GCC), a popular free-software compiler. Three open-source cores exist for this ISA, but were never manufactured. OpenRISC is an open-source ISA based on DLX, with associated RISC designs, and is fully supported with GCC and
Linux Linux ( or ) is a family of open-source Unix-like operating systems based on the Linux kernel, an operating system kernel first released on September 17, 1991, by Linus Torvalds. Linux is typically packaged as a Linux distribution, which ...
implementations, although it too has few commercial implementations.
Krste Asanović Krste Asanović from the University of California, Berkeley has written and co-authored many academic papers concerning computer architecture. , he is chairman of the Board of the RISC-V Foundation. Asanović was named Fellow of the Institute of ...
at the University of California, Berkeley, had a research requirement for an open-source computer system, and in 2010, he decided to develop and publish one in a "short, three-month project over the summer" with several of his graduate students. The plan was to aid both academic and industrial users. David Patterson at Berkeley joined the collaboration as he was the originator of the Berkeley RISC, and the RISC-V is the eponymous fifth generation of his long series of cooperative RISC-based research projects. At this stage, students provided initial software, simulations, and CPU designs. The RISC-V authors and their institution originally sourced the ISA documents and several CPU designs under
BSD licenses BSD licenses are a family of permissive free software licenses, imposing minimal restrictions on the use and distribution of covered software. This is in contrast to copyleft licenses, which have share-alike requirements. The original BSD lice ...
, which allow derivative works—such as RISC-V chip designs—to be either open and free, or closed and proprietary. The ISA specification itself (i.e., the encoding of the instruction set) was published in 2011 as open source, with all rights reserved. The actual technical report (an expression of the specification) was later placed under a Creative Commons license to permit enhancement by external contributors through the RISC-V Foundation, and later RISC-V International. A full history of RISC-V has been published on the RISC-V International website.


RISC-V Foundation and RISC-V International

Commercial users require an ISA to be stable before they can use it in a product that may last many years. To address this issue, the RISC-V Foundation was formed in 2015 to own, maintain, and publish intellectual property related to RISC-V's definition. The original authors and owners have surrendered their rights to the foundation. The foundation is led by CEO
Calista Redmond Calista Redmond is CEO of The RISC-V Foundation and a longtime tech executive. Redmond joined the RISC-V Foundation in March 2019. Prior to her appointment, she spent 12 years at IBM and was vice president of the IBM Z ecosystem from 2016 to 2019. ...
, who took on the role in 2019 after leading open infrastructure projects at IBM. In November 2019, the RISC-V Foundation announced that it would relocate to
Switzerland ). Swiss law does not designate a ''capital'' as such, but the federal parliament and government are installed in Bern, while other federal institutions, such as the federal courts, are in other cities (Bellinzona, Lausanne, Luzern, Neuchâtel ...
, citing concerns over U.S. trade regulations. As of March 2020, the organization was named RISC-V International, a Swiss nonprofit business association. , RISC-V International freely publishes the documents defining RISC-V and permits unrestricted use of the ISA for design of software and hardware. However, only members of RISC-V International can vote to approve changes, and only member organizations use the
trademark A trademark (also written trade mark or trade-mark) is a type of intellectual property consisting of a recognizable sign, design, or expression that identifies products or services from a particular source and distinguishes them from others ...
ed compatibility logo.


Awards

* 2017: The Linley Group's Analyst's Choice Award for Best Technology (for the instruction set)


Design


ISA base and extensions

RISC-V has a modular design, consisting of alternative base parts, with added optional extensions. The ISA base and its extensions are developed in a collective effort between industry, the research community and educational institutions. The base specifies instructions (and their encoding), control flow, registers (and their sizes), memory and addressing, logic (i.e., integer) manipulation, and ancillaries. The base alone can implement a simplified general-purpose computer, with full software support, including a general-purpose compiler. The standard extensions are specified to work with all of the standard bases, and with each other without conflict. Many RISC-V computers might implement the compressed instructions extension to reduce power consumption, code size, and memory use. There are also future plans to support hypervisors and
virtualization In computing, virtualization or virtualisation (sometimes abbreviated v12n, a numeronym) is the act of creating a virtual (rather than actual) version of something at the same abstraction level, including virtual computer hardware platforms, stor ...
. Together with a supervisor instruction set extension, S, an RVGC defines all instructions needed to conveniently support a general purpose
operating system An operating system (OS) is system software that manages computer hardware, software resources, and provides common services for computer programs. Time-sharing operating systems schedule tasks for efficient use of the system and may also in ...
.
To tame the combinations of functions that may be implemented, a nomenclature is defined to specify them in Chapter 27 of the current ratified Unprivileged ISA Specification. The instruction set base is specified first, coding for RISC-V, the register bit-width, and the variant; e.g., or . Then follows letters specifying implemented extensions, in the order of the above table. Each letter may be followed by a major optionally followed by "p" and a minor option number. It defaults to 0 if a minor version number is absent, and 1.0 if all of a version number is absent. Thus may be written as or more simply as . Underscores may be used between extensions for readability, for example . The base, extended integer and floating point calculations, and synchronization primitives for multi-core computing, the base and extensions MAFD, are considered to be necessary for general-purpose computation, and thus have the shorthand, G. A small 32-bit computer for an
embedded system An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
might be . A large 64-bit computer might be ; i.e., shorthand for . With the growth in the number of extensions, the standard now provides for extensions to be named by a single "Z" followed by an alphabetical name and an optional version number. For example, names the instruction-fetch extension. and name version 2.0 of the same. The first letter following the "Z" by convention indicates the most closely related alphabetical extension category, . Thus the Zam extension for misaligned atomics relates to the "A" standard extension. Unlike single character extensions, Z extensions must be separated by underscores, grouped by category and then alphabetically within each category. For example, . Extensions specific to supervisor privilege level are named in the same way using "S" for prefix. Extensions specific to hypervisor level are named using "H" for prefix. Machine level extensions are prefixed with the three letters "Zxm". Supervisor, hypervisor and machine level instruction set extensions are named after less privileged extensions. RISC-V developers may create their own non-standard instruction set extensions. These follow the "Z" naming convention, but with "X" as the prefix. They should be specified after all standard extensions, and if multiple non-standard extensions are listed, they should be listed alphabetically.


Profiles and Platforms

Profiles and Platforms for standard ISA choice lists are under discussion.


Register sets

RISC-V has 32 (or 16 in the embedded variant)
integer An integer is the number zero (), a positive natural number (, , , etc.) or a negative integer with a minus sign (−1, −2, −3, etc.). The negative numbers are the additive inverses of the corresponding positive numbers. In the language ...
registers, and, when the floating-point extension is implemented, separate 32
floating-point In computing, floating-point arithmetic (FP) is arithmetic that represents real numbers approximately, using an integer with a fixed precision, called the significand, scaled by an integer exponent of a fixed base. For example, 12.345 can b ...
registers. Except for memory access instructions, instructions address only registers. The first integer register is a zero register, and the remainder are general-purpose registers. A store to the zero register has no effect, and a read always provides 0. Using the zero register as a placeholder makes for a simpler instruction set. becomes . Control and status registers exist, but user-mode programs can access only those used for performance measurement and floating-point management. No instructions exist to save and restore multiple registers. Those were thought to be needless, too complex, and perhaps too slow.


Memory access

Like many RISC designs, RISC-V is a load–store architecture: instructions address only registers, with load and store instructions conveying data to and from memory. Most load and store instructions include a 12-bit offset and two register identifiers. One register is the base register. The other register is the source (for a store) or destination (for a load). The offset is added to a base register to get the address. Forming the address as a base register plus offset allows single instructions to access data structures. For example, if the base register points to the top of a stack, single instructions can access a subroutine's local variables in the stack. Likewise the load and store instructions can access a record-style structure or a memory-mapped I/O device. Using the constant zero register as a base address allows single instructions to access memory near address zero. Memory is addressed as 8-bit bytes, with instructions being in little-endian order, and with data being in the byte order defined by the execution environment interface in which code is running. Words, up to the register size, can be accessed with the load and store instructions. RISC-V was originally specified as little-endian to resemble other familiar, successful computers, for example,
x86 x86 (also known as 80x86 or the 8086 family) is a family of complex instruction set computer (CISC) instruction set architectures initially developed by Intel based on the Intel 8086 microprocessor and its 8088 variant. The 8086 was introd ...
. This also reduces a CPU's complexity and costs slightly less because it reads all sizes of words in the same order. For example, the RISC-V instruction set decodes starting at the lowest-addressed byte of the instruction. Big-endian and bi-endian variants were defined for support of legacy code bases that assume big-endian alignment. An execution environment interface may allow accessed memory addresses not to be aligned to their word width, but accesses to aligned addresses may be faster; for example, simple CPUs may implement unaligned accesses with slow software emulation driven from an alignment failure interrupt. Like many RISC instruction sets (and some complex instruction set computer (CISC) instruction sets, such as
x86 x86 (also known as 80x86 or the 8086 family) is a family of complex instruction set computer (CISC) instruction set architectures initially developed by Intel based on the Intel 8086 microprocessor and its 8088 variant. The 8086 was introd ...
and
IBM System/360 The IBM System/360 (S/360) is a family of mainframe computer systems that was announced by IBM on April 7, 1964, and delivered between 1965 and 1978. It was the first family of computers designed to cover both commercial and scientific applica ...
and its successors through
z/Architecture z/Architecture, initially and briefly called ESA Modal Extensions (ESAME), is IBM's 64-bit complex instruction set computer (CISC) instruction set architecture, implemented by its mainframe computers. IBM introduced its first z/Architecture-b ...
), RISC-V lacks address-modes that write back to the registers. For example, it does not auto-increment. RISC-V manages memory systems that are shared between CPUs or threads by ensuring a thread of execution always sees its memory operations in the programmed order. But between threads and I/O devices, RISC-V is simplified: it doesn't guarantee the order of memory operations, except by specific instructions, such as . A instruction guarantees that the results of predecessor operations are visible to successor operations of other threads or I/O devices. can guarantee the order of combinations of both memory and memory-mapped I/O operations. E.g. it can separate memory read and write operations, without affecting I/O operations. Or, if a system can operate I/O devices in parallel with memory, doesn't force them to wait for each other. One CPU with one thread may decode as . Some RISC CPUs (such as MIPS,
PowerPC PowerPC (with the backronym Performance Optimization With Enhanced RISC – Performance Computing, sometimes abbreviated as PPC) is a reduced instruction set computer (RISC) instruction set architecture (ISA) created by the 1991 Apple Inc., App ...
,
DLX The DLX (pronounced "Deluxe") is a RISC processor architecture designed by John L. Hennessy and David A. Patterson, the principal designers of the Stanford MIPS and the Berkeley RISC designs (respectively), the two benchmark examples of RISC desi ...
, and Berkeley's RISC-I) place 16 bits of offset in the loads and stores. They set the upper 16 bits by a ''load upper word'' instruction. This permits upper-halfword values to be set easily, without shifting bits. However, most use of the upper half-word instruction makes 32-bit constants, like addresses. RISC-V uses a
SPARC SPARC (Scalable Processor Architecture) is a reduced instruction set computer (RISC) instruction set architecture originally developed by Sun Microsystems. Its design was strongly influenced by the experimental Berkeley RISC system developed ...
-like combination of 12-bit offsets and 20-bit ''set upper'' instructions. The smaller 12-bit offset helps compact, 32-bit load and store instructions select two of 32 registers yet still have enough bits to support RISC-V's variable-length instruction coding.


Immediates

RISC-V handles 32-bit constants and addresses with instructions that set the upper 20 bits of a 32-bit register. Load upper immediate loads 20 bits into bits 31 through 12. Then a second instruction such as can set the bottom 12 bits. Small numbers or addresses can be formed by using the zero register instead of . This method is extended to permit position-independent code by adding an instruction, that generates 20 upper address bits by adding an offset to the program counter and storing the result into a base register. This permits a program to generate 32-bit addresses that are relative to the program counter. The base register can often be used as-is with the 12-bit offsets of the loads and stores. If needed, can set the lower 12 bits of a register. In 64-bit and 128-bit ISAs, and sign-extend the result to get the larger address. Some fast CPUs may interpret combinations of instructions as single ''fused'' instructions. or are good candidates to fuse with , , loads or stores.


Subroutine calls, jumps, and branches

RISC-V's subroutine call (jump and link) places its return address in a register. This is faster in many computer designs, because it saves a memory access compared to systems that push a return address directly on a stack in memory. has a 20-bit signed ( two's complement) offset. The offset is multiplied by 2, then added to the PC to generate a relative address to a 32-bit instruction. If the result is not at a 32-bit address (i.e., evenly divisible by 4), the CPU may force an exception. RISC-V CPUs jump to calculated addresses using a ''jump and link-register'', instruction. is similar to , but gets its destination address by adding a 12-bit offset to a base register. (In contrast, adds a larger 20-bit offset to the PC.) 's bit format is like the register-relative loads and stores. Like them, can be used with the instructions that set the upper 20 bits of a base register to make 32-bit branches, either to an absolute address (using ) or a PC-relative one (using for position-independent code). (Using a constant zero base address allows single-instruction calls to a small (the offset), fixed positive or negative address.) RISC-V recycles and to get unconditional 20-bit PC-relative jumps and unconditional register-based 12-bit jumps. Jumps just make the linkage register 0 so that no return address is saved. RISC-V also recycles to return from a subroutine: To do this, 's base register is set to be the linkage register saved by or . 's offset is zero and the linkage register is zero, so that there is no offset, and no return address is saved. Like many RISC designs, in a subroutine call, a RISC-V compiler must use individual instructions to save registers to the stack at the start, and then restore these from the stack on exit. RISC-V has no ''save multiple'' or ''restore multiple'' register instructions. These were thought to make the CPU too complex, and possibly slow. This can take more code space. Designers planned to reduce code size with library routines to save and restore registers. RISC-V has no condition code register or
carry bit In computer processors the carry flag (usually indicated as the C flag) is a single bit in a system status register/flag register used to indicate when an arithmetic carry or borrow has been generated out of the most significant arithmetic logic ...
. The designers believed that condition codes make fast CPUs more complex by forcing interactions between instructions in different stages of execution. This choice makes multiple-precision arithmetic more complex. Also, a few numerical tasks need more energy. As a result, predication (the conditional execution of instructions) is not supported. The designers claim that very fast, out-of-order CPU designs do predication anyway, by doing the comparison branch and conditional code in parallel, then discarding the unused path's effects. They also claim that even in simpler CPUs, predication is less valuable than branch prediction, which can prevent most stalls associated with conditional branches. Code without predication is larger, with more branches, but they also claim that a
compressed instruction set A compressed instruction set, or simply compressed instructions, are a variation on a microprocessor's instruction set architecture (ISA) that allows instructions to be represented in a more compact format. In most real-world examples, compressed ...
(such as RISC-V's set ''C'') solves that problem in most cases. Instead, RISC-V has short branches that perform comparisons: equal, not-equal, less-than, unsigned less-than, greater-than or equal and unsigned greater-than or equal. Ten comparison-branch operations are implemented with only six instructions, by reversing the order of operands in the assembler. For example, ''branch if greater than'' can be done by ''less-than'' with a reversed order of operands. The comparing branches have a twelve-bit signed range, and jump relative to the PC. Unlike some RISC architectures, RISC-V does not include a
branch delay slot In computer architecture, a delay slot is an instruction slot being executed without the effects of a preceding instruction. The most common form is a single arbitrary instruction located immediately after a branch instruction on a RISC or DSP a ...
, a position after a branch instruction that can be filled with an instruction that is executed whether or not the branch is taken. RISC-V omits a branch delay slot because it complicates multicycle CPUs, superscalar CPUs, and long pipelines. Dynamic branch predictors have succeeded well enough to reduce the need for delayed branches. On the first encounter with a branch, RISC-V CPUs should assume that a negative relative branch (i.e. the sign bit of the offset is "1") will be taken. This assumes that a backward branch is a loop, and provides a default direction so that simple pipelined CPUs can fill their pipeline of instructions. Other than this, RISC-V does not require branch prediction, but core implementations are allowed to add it. RV32I reserves a "HINT" instruction space that presently does not contain any hints on branches; RV64I does the same.


Arithmetic and logic sets

RISC-V segregates math into a minimal set of
integer An integer is the number zero (), a positive natural number (, , , etc.) or a negative integer with a minus sign (−1, −2, −3, etc.). The negative numbers are the additive inverses of the corresponding positive numbers. In the language ...
instructions (set ''I'') with add, subtract, shift, bitwise logic and comparing-branches. These can simulate most of the other RISC-V instruction sets with software. (The atomic instructions are a notable exception.) RISC-V integer instructions lacks the ''count leading zero'' and bit-field operations normally used to speed software floating-point in a pure-integer processor, However, while nominally in the bit manipulation extension, the ratified Zbb, Zba and Zbs extensions contain further integer instructions including a count leading zero instruction. The integer multiplication instructions (set ''M'') include signed and unsigned multiply and divide. Double-precision integer multiplies and divides are included, as multiplies and divides that produce the ''high word'' of the result. The ISA document recommends that implementors of CPUs and compilers ''fuse'' a standardized sequence of high and low multiply and divide instructions to one operation if possible. The
floating-point In computing, floating-point arithmetic (FP) is arithmetic that represents real numbers approximately, using an integer with a fixed precision, called the significand, scaled by an integer exponent of a fixed base. For example, 12.345 can b ...
instructions (set ''F'') include single-precision arithmetic and also comparison-branches similar to the integer arithmetic. It requires an additional set of 32 floating-point registers. These are separate from the integer registers. The double-precision floating point instructions (set ''D'') generally assume that the floating-point registers are 64-bit (i.e., double-width), and the ''F'' subset is coordinated with the ''D'' set. A quad-precision 128-bit floating-point ISA (''Q'') is also defined. RISC-V computers without floating-point can use a floating-point software library. RISC-V does not cause exceptions on arithmetic errors, including overflow, underflow, subnormal, and divide by zero. Instead, both integer and floating-point arithmetic produce reasonable default values, and floating-point instructions set status bits. Divide-by-zero can be discovered by one branch after the division. The status bits can be tested by an operating system or periodic interrupt.


Atomic memory operations

RISC-V supports computers that share memory between multiple CPUs and threads. RISC-V's standard memory consistency model is release consistency. That is, loads and stores may generally be reordered, but some loads may be designated as ''acquire'' operations which must precede later memory accesses, and some stores may be designated as ''release'' operations which must follow earlier memory accesses. The base instruction set includes minimal support in the form of a instruction to enforce memory ordering. Although this is sufficient ( provides ''acquire'' and provides ''release''), combined operations can be more efficient. The atomic memory operation extension supports two types of atomic memory operations for release consistency. First, it provides general purpose ''load-reserved'' and ''store-conditional'' instructions. performs a load, and tries to reserve that address for its thread. A later store-conditional to the reserved address will be performed only if the reservation is not broken by an intervening store from another source. If the store succeeds, a zero is placed in a register. If it failed, a non-zero value indicates that software needs to retry the operation. In either case, the reservation is released. The second group of atomic instructions perform read-modify-write sequences: a load (which is optionally a load-acquire) to a destination register, then an operation between the loaded value and a source register, then a store of the result (which may optionally be a store-release). Making the memory barriers optional permits combining the operations. The optional operations are enabled by ''acquire'' and ''release'' bits which are present in every atomic instruction. RISC-V defines nine possible operations: swap (use source register value directly); add; bitwise and, or, and exclusive-or; and signed and unsigned minimum and maximum. A system design may optimize these combined operations more than and . For example, if the destination register for a swap is the constant zero, the load may be skipped. If the value stored is unmodified since the load, the store may be skipped. The
IBM System/370 The IBM System/370 (S/370) is a model range of IBM mainframe computers announced on June 30, 1970, as the successors to the System/360 family. The series mostly maintains backward compatibility with the S/360, allowing an easy migration path f ...
and its successors including
z/Architecture z/Architecture, initially and briefly called ESA Modal Extensions (ESAME), is IBM's 64-bit complex instruction set computer (CISC) instruction set architecture, implemented by its mainframe computers. IBM introduced its first z/Architecture-b ...
, and
x86 x86 (also known as 80x86 or the 8086 family) is a family of complex instruction set computer (CISC) instruction set architectures initially developed by Intel based on the Intel 8086 microprocessor and its 8088 variant. The 8086 was introd ...
, both implement a compare-and-swap () instruction, which tests and conditionally updates a location in memory: if the location contains an expected old value, replaces it with a given new value; it then returns an indication of whether it made the change. However, a simple load-type instruction is usually performed before the to fetch the old value. The classic problem is that if a thread reads (loads) a value ''A'', calculates a new value ''C'', and then uses () to replace ''A'' with ''C'', it has no way to know whether concurrent activity in another thread has replaced ''A'' with some other value ''B'' and then restored the ''A'' in between. In some algorithms (e.g., ones in which the values in memory are pointers to dynamically allocated blocks), this
ABA problem In multithreaded computing, the ABA problem occurs during synchronization, when a location is read twice, has the same value for both reads, and "value is the same" is used to indicate "nothing has changed". However, another thread can execute be ...
can lead to incorrect results. The most common solution employs a ''double-wide '' instruction to update both the pointer and an adjacent counter; unfortunately, such an instruction requires a special instruction format to specify multiple registers, performs several reads and writes, and can have complex bus operation. The / alternative is more efficient. It usually requires only one memory load, and minimizing slow memory operations is desirable. It's also exact: it controls all accesses to the memory cell, rather than just assuring a bit pattern. However, unlike , it can permit
livelock In concurrent computing, deadlock is any situation in which no member of some group of entities can proceed because each waits for another member, including itself, to take action, such as sending a message or, more commonly, releasing a loc ...
, in which two or more threads repeatedly cause each other's instructions to fail. RISC-V guarantees forward progress (no livelock) if the code follows rules on the timing and sequence of instructions: 1) It must use only the ''I'' subset. 2) To prevent repetitive cache misses, the code (including the retry loop) must occupy no more than 16 consecutive instructions. 3) It must include no system or fence instructions, or taken backward branches between the and . 4) The backward branch to the retry loop must be to the original sequence. The specification gives an example of how to use the read-modify-write atomic instructions to lock a data structure.


Compressed subset

The standard RISC-V ISA specifies that all instructions are 32 bits. This makes for a particularly simple implementation, but like other RISC processors with 32-bit instruction encoding, results in larger code size than in instruction sets with variable-length instructions. To compensate, RISC-V's ''32-bit'' instructions are actually 30 bits; of the
opcode In computing, an opcode (abbreviated from operation code, also known as instruction machine code, instruction code, instruction syllable, instruction parcel or opstring) is the portion of a machine language instruction that specifies the operat ...
space is reserved for an optional (but recommended) variable-length ''compressed'' instruction set, RVC, that includes 16-bit instructions. Like ARM's Thumb and the MIPS16, the compressed instructions are simply aliases for a subset of the larger instructions. Unlike ARM's Thumb or the MIPS compressed set, space was reserved from the beginning so there is no separate operating mode. Standard and compressed instructions may be intermixed freely. (Extension letter is ''C''.) Because (like Thumb-1 and MIPS16) the compressed instructions are simply alternate encodings (aliases) for a selected subset of larger instructions, the compression can be implemented in the assembler, and it is not essential for the compiler to even know about it. A prototype of RVC was tested in 2011. The prototype code was 20% smaller than an
x86 x86 (also known as 80x86 or the 8086 family) is a family of complex instruction set computer (CISC) instruction set architectures initially developed by Intel based on the Intel 8086 microprocessor and its 8088 variant. The 8086 was introd ...
PC and MIPS compressed code, and 2% larger than ARM
Thumb-2 ARM (stylised in lowercase as arm, formerly an acronym for Advanced RISC Machines and originally Acorn RISC Machine) is a family of reduced instruction set computer (RISC) instruction set architectures for computer processors, configured ...
code. It also substantially reduced both the needed cache memory and the estimated power use of the memory system. The researcher intended to reduce the code's binary size for small computers, especially
embedded computer An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
systems. The prototype included 33 of the most frequently used instructions, recoded as compact 16-bit formats using operation codes previously reserved for the compressed set. The compression was done in the assembler, with no changes to the compiler. Compressed instructions omitted fields that are often zero, used small immediate values or accessed subsets (16 or 8) of the registers. is very common and often compressible. Much of the difference in size compared to ARM's Thumb set occurred because RISC-V, and the prototype, have no instructions to save and restore multiple registers. Instead, the compiler generated conventional instructions that access the stack. The prototype RVC assembler then often converted these to compressed forms that were half the size. However, this still took more code space than the ARM instructions that save and restore multiple registers. The researcher proposed to modify the compiler to call library routines to save and restore registers. These routines would tend to remain in a code cache and thus run fast, though probably not as fast as a save-multiple instruction. Standard RVC requires occasional use of 32-bit instructions. Several nonstandard RVC proposals are complete, requiring no 32-bit instructions, and are said to have higher densities than standard RVC. Another proposal builds on these, and claims to use less coding range as well.


Embedded subset

An instruction set for the smallest ''embedded'' CPUs (set E) is reduced in other ways: Only 16 of the 32 integer registers are supported. All current extensions may be used; a floating-point extension to use the integer registers for floating-point values is being considered. The privileged instruction set supports only machine mode, user mode and memory schemes that use base-and-bound address relocation. Discussion has occurred for a microcontroller profile for RISC-V, to ease development of deeply
embedded system An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
s. It centers on faster, simple C-language support for interrupts, simplified security modes and a simplified
POSIX The Portable Operating System Interface (POSIX) is a family of standards specified by the IEEE Computer Society for maintaining compatibility between operating systems. POSIX defines both the system- and user-level application programming interf ...
application binary interface. Correspondents have also proposed smaller, non-standard, 16-bit ''RV16E'' ISAs: Several serious proposals would use the 16-bit ''C'' instructions with 8 × 16-bit registers. An April fools' joke proposed a very practical arrangement: Utilize 16 × 16-bit integer registers, with the standard ''EIMC'' ISAs (including 32-bit instructions.) The joke was to use bank switching when a 32-bit CPU would be clearly superior with the larger address space.


Privileged instruction set

RISC-V's ISA includes a separate privileged instruction set specification. , version 1.12 is ratified by RISC-V International. Version 1.11 of the specification supports several types of computer systems: # Systems that have only ''machine mode'', perhaps for
embedded system An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
s, # Systems with both machine mode (for the
supervisor A supervisor, or lead, (also known as foreman, boss, overseer, facilitator, monitor, area coordinator, line-manager or sometimes gaffer) is the job title of a lower-level management position that is primarily based on authority over workers or ...
) and user-mode to implement operating systems that run the kernel in a privileged mode. # Systems with machine-mode, hypervisors, multiple supervisors, and user-modes under each supervisor. These correspond roughly to systems with up to four ''rings'' of privilege and security, at most: machine, hypervisor, supervisor and user. Each layer also is expected to have a thin layer of standardized supporting software that communicates to a more-privileged layer, or hardware. The ISA also includes a hypervisor mode that is
orthogonal In mathematics, orthogonality is the generalization of the geometric notion of ''perpendicularity''. By extension, orthogonality is also used to refer to the separation of specific features of a system. The term also has specialized meanings in ...
to the user and supervisor modes. The basic feature is a configuration bit that either permits supervisor-level code to access hypervisor registers, or causes an interrupt on accesses. This bit lets supervisor mode directly handle the hardware needed by a hypervisor. This simplifies the implementation of hypervisors that are hosted by an operating system. This is a popular mode to run warehouse-scale computers. To support non-hosted hypervisors, the bit can cause these accesses to interrupt to a hypervisor. The design also simplifies nesting of hypervisors, in which a hypervisor runs under a hypervisor, and if necessary it lets the kernel use hypervisor features within its own kernel code. As a result, the hypervisor form of the ISA supports five modes: machine, supervisor, user, supervisor-under-hypervisor and user-under-hypervisor. The privileged instruction set specification explicitly defines ''hardware threads'', or ''harts''. Multiple hardware threads are a common practice in more-capable computers. When one thread is stalled, waiting for memory, others can often proceed. Hardware threads can help make better use of the large number of registers and execution units in fast out-of-order CPUs. Finally, hardware threads can be a simple, powerful way to handle interrupts: No saving or restoring of registers is required, simply executing a different hardware thread. However, the only hardware thread required in a RISC-V computer is thread zero. The existing control and status register definitions support RISC-V's error and memory exceptions, and a small number of interrupts. For systems with more interrupts, the specification also defines an interrupt controller. Interrupts always start at the highest-privileged machine level, and the control registers of each level have explicit ''forwarding'' bits to route interrupts to less-privileged code. For example, the hypervisor need not include software that executes on each interrupt to forward an interrupt to an operating system. Instead, on set-up, it can set bits to forward the interrupt. Several memory systems are supported in the specification. Physical-only is suited to the simplest
embedded system An embedded system is a computer system—a combination of a computer processor, computer memory, and input/output peripheral devices—that has a dedicated function within a larger mechanical or electronic system. It is ''embedded'' as ...
s. There are also three
UNIX Unix (; trademarked as UNIX) is a family of multitasking, multiuser computer operating systems that derive from the original AT&T Unix, whose development started in 1969 at the Bell Labs research center by Ken Thompson, Dennis Ritchie, and ot ...
-style
virtual memory In computing, virtual memory, or virtual storage is a memory management technique that provides an "idealized abstraction of the storage resources that are actually available on a given machine" which "creates the illusion to users of a very l ...
systems for memory cached in mass-storage systems. The virtual memory systems support MMU with three sizes, with addresses sized 32, 39 and 48 bits. All virtual memory systems support 4 KiB pages, multilevel page-table trees and use very similar algorithms to walk the page table trees. All are designed for either hardware or software page-table walking. To optionally reduce the cost of page table walks, super-sized pages may be leaf pages in higher levels of a system's page table tree. SV32 has a two-layer page table tree and supports 4 MiB superpages. SV39 has a three level page table, and supports 2 MiB superpages and 1 GiB gigapages. SV48 is required to support SV39. It also has a 4-level page table and supports 2 MiB superpages, 1 GiB gigapages, and 512 GiB terapages. Superpages are aligned on the page boundaries for the next-lowest size of page.


Bit manipulation

Some Bit-Manipulation ISA-extensions were ratified in November 2021 (Zba, Zbb, Zbc, Zbs).. The Zba, Zbb, and Zbs extensions are arguably extensions of the standard I integer instructions: Zba contains instructions to speed up the computation of the addresses of array elements in arrays of datatypes of size 2, 4, or 8 bytes (sh1add, sh2add, sh3add), and for 64 (and 128) bit processors when indexed with unsigned integers (add.uw, sh1add.uw, sh2add.uw, sh3add.uw and slli.uw). The Zbb instructions contains operations to count leading, trailing 0 bits or all 1 bits in a full and 32 word operations (clz, clzw, ctz, ctzw, cpop, cpopw), byte order reversion (rev8), logical instructions with negation of the second input (andn,orn, xnor), sign and zero extension (sext.b, sext.h, zext.h) that could not be provided as special cases of other instructions (andi, addiw, add.wu), min and max of (signed and unsigned) integers, (left and right) rotation of bits in a register and 32 bit words (rori,roriw, ror, rorw, rol, rolw), and a byte wise "or combine" operation which allows detection of a zero byte in a full register, useful for handling C-style nul terminated strings functions. The Zbs extension allows setting, getting, clearing, and toggling individual bits in a register by their index (bseti, bset, bexti, bext, bclri, bclr, binvi,binv). The Zbc extension has instructions for "carryless multiplication", which does the multiplication of
polynomials In mathematics, a polynomial is an expression (mathematics), expression consisting of indeterminate (variable), indeterminates (also called variable (mathematics), variables) and coefficients, that involves only the operations of addition, subtrac ...
over the Galois field GF(2) (clmul, clmulh, clmulr). These are useful for cryptography and CRC checks of data integrity. Done well, more specialised bit-manipulation subset can aid cryptographic, graphic, and mathematical operations. Further instructions that have been discussed include instructions to shift in ones, a generalized bit-reverse, shuffle and crossbar permutations, bit-field place, extract and deposit pack two words, bytes or halfwords in one register, CRC instructions, bit-matrix operations (RV64 only), conditional mix, conditional move, funnel shifts. The criteria for inclusion documented in the draft were compliant with RV5 philosophies and ISA formats, substantial improvements in code density or speed (i.e., at least a 3-for-1 reduction in instructions), and substantial real-world applications, including preexisting compiler support. Version 0.93 includes.


Packed SIMD

Packed-SIMD instructions are widely used by commercial CPUs to inexpensively accelerate multimedia and other
digital signal processing Digital signal processing (DSP) is the use of digital processing, such as by computers or more specialized digital signal processors, to perform a wide variety of signal processing operations. The digital signals processed in this manner are ...
. For simple, cost-reduced RISC-V systems, the base ISA's specification proposed to use the floating-point registers' bits to perform parallel single instruction, multiple data ( SIMD) sub-word arithmetic. In 2017 a vendor published a more detailed proposal to the mailing list, and this can be cited as version 0.1. , the efficiency of this proposed ISA varies from 2x to 5x a base CPU for a variety of DSP codecs. The proposal lacked instruction formats and a license assignment to RISC-V International, but it was reviewed by the mailing list. Some unpopular parts of this proposal were that it added a condition code, the first in a RISC-V design, linked adjacent registers (also a first), and has a loop counter that can be difficult to implement in some microarchitectures. A previous, well-regarded implementation for a 64-bit CPU was PA-RISC's multimedia instructions: Multimedia Acceleration eXtensions. It increased the CPU's performance on digital signal processing tasks by 48-fold or more, enabling practical real-time video codecs in 1995. Besides its native 64-bit math, the PA-RISC MAX2 CPU could do arithmetic on four 16-bit subwords at once, with several overflow methods. It also could move subwords to different positions. PA-RISC's MAX2 was intentionally simplified. It lacked support for 8-bit or 32-bit subwords. The 16-bit subword size was chosen to support most digital signal processing tasks. These instructions were inexpensive to design and build.


Vector set

The proposed vector-processing instruction set may make the packed SIMD set obsolete. The designers hope to have enough flexibility that a CPU can implement vector instructions in a standard processor's registers. This would enable minimal implementations with similar performance to a multimedia ISA, as above. However, a true vector coprocessor could execute the same code with higher performance. , the vector extension is at version 1.0. It is a conservative, flexible design of a general-purpose mixed-precision
vector processor In computing, a vector processor or array processor is a central processing unit (CPU) that implements an instruction set where its instructions are designed to operate efficiently and effectively on large one-dimensional arrays of data called ...
, suitable to execute
compute kernel In computing, a compute kernel is a routine compiled for high throughput accelerators (such as graphics processing units (GPUs), digital signal processors (DSPs) or field-programmable gate arrays (FPGAs)), separate from but used by a main progr ...
s. Code would port easily to CPUs with differing vector lengths, ideally without recompiling. In contrast, short-vector SIMD extensions are less convenient. These are used in
x86 x86 (also known as 80x86 or the 8086 family) is a family of complex instruction set computer (CISC) instruction set architectures initially developed by Intel based on the Intel 8086 microprocessor and its 8088 variant. The 8086 was introd ...
, ARM and PA-RISC. In these, a change in word-width forces a change to the instruction set to expand the vector registers (in the case of x86, from 64-bit MMX registers to 128-bit
Streaming SIMD Extensions In computing, Streaming SIMD Extensions (SSE) is a single instruction, multiple data (SIMD) instruction set extension to the x86 architecture, designed by Intel and introduced in 1999 in their Pentium III series of Central processing units (CPUs) ...
(SSE), to 256-bit Advanced Vector Extensions (AVX), and AVX-512). The result is a growing instruction set, and a need to port working code to the new instructions. In the RISC-V vector ISA, rather than fix the vector length in the architecture, instructions (, , and ) are available which take a requested size and sets the vector length to the minimum of the hardware limit and the requested size. So, the RISC-V proposal is more like a
Cray Cray Inc., a subsidiary of Hewlett Packard Enterprise, is an American supercomputer manufacturer headquartered in Seattle, Washington. It also manufactures systems for data storage and analytics. Several Cray supercomputer systems are listed ...
's long-vector design or ARM's Scalable Vector Extension. That is, each vector in up to 32 vectors is the same length. The application specifies the total vector width it requires, and the processor determines the vector length it can provide with available on-chip resources. This takes the form of an instruction () with four immediate operands, specifying the number of vector registers of each available width needed. The total must be no more than the addressable limit of 32, but may be less if the application does not require them all. The vector length is limited by the available on-chip storage divided by the number of bytes of storage needed for each entry. (Added hardware limits may also exist, which in turn may permit SIMD-style implementations.) Outside of vector loops, the application can zero the number of requested vector registers, saving the operating system the work of preserving them on
context switch In computing, a context switch is the process of storing the state of a process or thread, so that it can be restored and resume execution at a later point, and then restoring a different, previously saved, state. This allows multiple processes ...
es. The vector length is not only architecturally variable, but designed to vary at run time also. To achieve this flexibility, the instruction set is likely to use variable-width data paths and variable-type operations using polymorphic overloading. The plan is that these can reduce the size and complexity of the ISA and compiler. Recent experimental vector processors with variable-width data paths also show profitable increases in operations per: second (speed), area (lower cost), and watt (longer battery life). Unlike a typical modern
graphics processing unit A graphics processing unit (GPU) is a specialized electronic circuit designed to manipulate and alter memory to accelerate the creation of images in a frame buffer intended for output to a display device. GPUs are used in embedded systems, mobi ...
, there are no plans to provide special hardware to support
branch predication In computer science, predication is an architectural feature that provides an alternative to conditional transfer of control, as implemented by conditional branch machine instructions. Predication works by having conditional (''predicated'') non- ...
. Instead, lower cost compiler-based predication will be used.


External debug system

There is a preliminary specification for RISC-V's hardware-assisted debugger. The debugger will use a transport system such as Joint Test Action Group (
JTAG JTAG (named after the Joint Test Action Group which codified it) is an Technical standard, industry standard for verifying designs and testing printed circuit boards after manufacture. JTAG implements standards for on-chip instrumentation in ele ...
) or Universal Serial Bus (
USB Universal Serial Bus (USB) is an industry standard that establishes specifications for cables, connectors and protocols for connection, communication and power supply (interfacing) between computers, peripherals and other computers. A broad v ...
) to access debug registers. A standard hardware debug interface may support either a ''standardized abstract interface'' or ''instruction feeding''. , the exact form of the ''abstract interface'' remains undefined, but proposals include a memory mapped system with standardized addresses for the registers of debug devices or a command register and a data register accessible to the communication system. Correspondents claim that similar systems are used by Freescale's
background debug mode interface Background debug mode (BDM) interface is an electronic interface that allows debugging of embedded systems. Specifically, it provides in-circuit debugging functionality in microcontrollers. It requires a single wire and specialized electronics i ...
(BDM) for some CPUs, ARM, OpenRISC, and
Aeroflex Aeroflex Inc. was an American company which produced test equipment, RF and microwave integrated circuits, components and systems used for wireless communications. Its headquarters were located in Plainview, New York. In May 2014, Aeroflex was ...
's
LEON Leon, Léon (French) or León (Spanish) may refer to: Places Europe * León, Spain, capital city of the Province of León * Province of León, Spain * Kingdom of León, an independent state in the Iberian Peninsula from 910 to 1230 and again fro ...
. In ''instruction feeding'', the CPU will process a debug exception to execute individual instructions written to a register. This may be supplemented with a data-passing register and a module to directly access the memory. Instruction feeding lets the debugger access the computer exactly as software would. It also minimizes changes in the CPU, and adapts to many types of CPU. This was said to be especially apt for RISC-V because it is designed explicitly for many types of computers. The data-passing register allows a debugger to write a data-movement loop to RAM, and then execute the loop to move data into or out of the computer at a speed near the maximum speed of the debug system's data channel. Correspondents say that similar systems are used by
MIPS Technologies MIPS Technologies, Inc., formerly MIPS Computer Systems, Inc., was an American fabless semiconductor design company that is most widely known for developing the MIPS architecture and a series of RISC CPU chips based on it. MIPS provides proce ...
MIPS,
Intel Quark Intel Quark is a line of 32-bit x86 SoCs and microcontrollers by Intel, designed for small size and low power consumption, and targeted at new markets including wearable devices. The line was introduced at Intel Developer Forum in 2013, and d ...
, Tensilica's Xtensa, and for Freescale
Power ISA Power ISA is a reduced instruction set computer (RISC) instruction set architecture (ISA) currently developed by the OpenPOWER Foundation, led by IBM. It was originally developed by IBM and the now-defunct Power.org industry group. Power IS ...
CPUs'
background debug mode interface Background debug mode (BDM) interface is an electronic interface that allows debugging of embedded systems. Specifically, it provides in-circuit debugging functionality in microcontrollers. It requires a single wire and specialized electronics i ...
(BDM). A vendor proposed a hardware trace subsystem for standardization, donated a conforming design, and initiated a review. The proposal is for a hardware module that can trace code execution on most RV5 CPUs. To reduce the data rate, and permit simpler or less-expensive paths for the trace data, the proposal does not generate trace data that can be calculated from a binary image of the code. It sends only data that indicates "uninferrable" paths through the program, such as which conditional branches are taken. To reduce the data rates, branches that can be calculated, such as unconditional branches, are not traced. The proposed interface between the module and the control unit is a logic signal for each uninferrable type of instruction. Addresses and other data are to be provided in a specialized bus attached to appropriate data sources in a CPU. The data structure sent to an external trace unit is a series of short messages with the needed data. The details of the data channel are intentionally not described in the proposal, because several are likely to make sense.


Implementations

The RISC-V organization maintains a list of RISC-V CPU and SoC implementations.


Existing

Existing proprietary implementations include: * Allwinner Technology has implemented the XuanTie C906 CPU into their D1 Application Processor. * Andes Technology Corporation, a Founding Premier member of RISC-V International. Its RISC-V CPU families range from tiny 32-bit cores to advanced 64-bit cores with DSP, FPU, Vector, superscalar, and/or multicore capabilities. * Bouffalo Lab has a series of MCUs based on RISC-V (RV32IMACF, BL60x/BL70x series). * CloudBEAR is a processor IP company that develops its own RISC-V cores for a range of applications. * Codasip, a founding member of RISC-V International, has developed a range of low-power embedded, high-performance embedded and application processor cores. * Cortus, a founding platinum member of the RISC-V International, has a number of RISC-V implementations and a complete IDE/toolchain/debug eco-system which it offers for free as part of its SoC design business. * Espressif added a RISC-V ULP coprocessor to their ESP32-S2 microcontroller. In November 2020 Espressif announced their ESP32-C3, a single-core, 32-bit, RISC-V (RV32IMC) based MCU. * Fraunhofer IPMS was the first organization to develop a RISC-V core that can meet functional safety requirements. The IP Core EMSA5 is a 32-bit processor with a five-stage pipeline and is available as a General Purpose variant (EMSA5-GP) and as a Safety variant (EMSA5-FS) that can meet an ISO 26262 Automotive Safety Integrity Level-D standard. *
GigaDevice GigaDevice Semiconductor () is a Chinese NOR flash memory designer. It also produces microcontrollers, some of them are based on the ARM architecture (GD32 series), and other on the RISC-V architecture (GD32V series). GD32 chips were introduced i ...
has a series of MCUs based on RISC-V (RV32IMAC, GD32V series), with one of them used on the Longan Nano board produced by a Chinese electronic company ''Sipeed''. *
Google Google LLC () is an American multinational technology company focusing on search engine technology, online advertising, cloud computing, computer software, quantum computing, e-commerce, artificial intelligence, and consumer electronics. ...
has developed the
Titan M2 The following is a list of products, services, and apps provided by Google. Active, soon-to-be discontinued, and discontinued products, services, tools, hardware, and other applications are broken out into designated sections. Web-based product ...
security module for the Pixel 6 * GreenWaves Technologies announced the availability of GAP8, a 32-bit 1 controller plus 8 compute cores, 32-bit SoC (RV32IMC) and developer board in February 2018. Their GAPuino GAP8 development board started shipping in May 2018.
Instant SoC
RISC-V cores from FPGA Cores. System On Chip, including RISC-V cores, defined by C++. * Micro Magic Inc. announced the world's fastest 64-bit RISC-V core achieving 5 GHz and 13,000 CoreMarks in October 2020. * Seagate, in December 2020 announced that it had developed two RISC-V general-purpose cores for use in upcoming controllers for its storage devices. * SiFive, a company established specifically for developing RISC-V hardware, has processor models released in 2017. These include a quad-core, 64-bit (RV64GC)
system on a chip A system on a chip or system-on-chip (SoC ; pl. ''SoCs'' ) is an integrated circuit that integrates most or all components of a computer or other electronic system. These components almost always include a central processing unit (CPU), memory ...
(SoC) capable of running general-purpose operating systems such as Linux. * Syntacore, a founding member of RISC-V International and one of the first commercial RISC-V IP vendors, develops and licenses family of RISC-V IP since 2015. , product line includes eight 32- and 64-bit cores, including open-source SCR1 MCU core (RV32I/E C. First commercial SoCs, based on the Syntacore IP were demonstrated in 2016. * Codasip and UltraSoC have developed fully supported intellectual property for RISC-V embedded SOCs that combine Codasip's RISC-V cores and other IP with UltraSoC's debug, optimization and analytics. * As of 2020, the Indian defence and strategic sector started using the 64-bit RISC-V based 100-350 MHz Risecreek processor developed by IIT-Madras which is fabricated by
Intel Intel Corporation is an American multinational corporation and technology company headquartered in Santa Clara, California. It is the world's largest semiconductor chip manufacturer by revenue, and is one of the developers of the x86 seri ...
with 22 nm
FinFET A fin field-effect transistor (FinFET) is a multigate device, a MOSFET (metal-oxide-semiconductor field-effect transistor) built on a substrate where the gate is placed on two, three, or four sides of the channel or wrapped around the channel, f ...
process.


In development

* ASTC developed a RISC-V CPU for embedded ICs. *
Centre for Development of Advanced Computing The Centre for Development of Advanced Computing (C-DAC) is an Indian autonomous scientific society, operating under the Ministry of Electronics and Information Technology. History CDAC was created in November 1987, initially as the Centre f ...
(C-DAC) in India is developing a single core 32-bit in-order, a single core 64-bit in-order and three out-of-order single, dual and quad-core RISC-V processor under
VEGA Microprocessors VEGA Microprocessors are a portfolio of indigenous processors developed by C-DAC. The portfolio includes several 32-bit/64-bit Single/Multi-core Superscalar In-order/Out-of-Order high performance processors based on the RISC-V ISA. Also feature ...
series. * Cobham Gaisler NOEL-V 64-bit. * Computer Laboratory, University of Cambridge, in collaboration with the
FreeBSD FreeBSD is a free and open-source Unix-like operating system descended from the Berkeley Software Distribution (BSD), which was based on Research Unix. The first version of FreeBSD was released in 1993. In 2005, FreeBSD was the most popular ...
Project, has ported that operating system to 64-bit RISC-V to use as a hardware-software research platform. * Esperanto Technologies announced that they are developing three RISC-V based processors: the ''ET-Maxion'' high-performance core, ''ET-Minion'' energy-efficient core, and ''ET-Graphics'' graphics processor. *
ETH Zurich (colloquially) , former_name = eidgenössische polytechnische Schule , image = ETHZ.JPG , image_size = , established = , type = Public , budget = CHF 1.896 billion (2021) , rector = Günther Dissertori , president = Joël Mesot , ac ...
and the
University of Bologna The University of Bologna ( it, Alma Mater Studiorum – Università di Bologna, UNIBO) is a public research university in Bologna, Italy. Founded in 1088 by an organised guild of students (''studiorum''), it is the oldest university in continuo ...
have cooperatively developed the open-source RISC-V PULPino processor as part of the Parallel Ultra-Low Power (PULP) project for energy-efficient IoT computing. * European Processor Initiative (EPI), RISC-V Accelerator Stream. * Reconfigurable Intelligent Systems Engineering Group (RISE) of IIT-Madras is developing six
Shakti In Hinduism, especially Shaktism (a theological tradition of Hinduism), Shakti (Devanagari: शक्ति, IAST: Śakti; lit. "Energy, ability, strength, effort, power, capability") is the primordial cosmic energy, female in aspect, and rep ...
series RISC-V open-source CPU designs for six distinct uses, from a small
32-bit CPU In computer architecture, 32-bit computing refers to computer systems with a processor, memory, and other major system components that operate on data in 32-bit units. Compared to smaller bit widths, 32-bit computers can perform large calculation ...
for the
Internet of Things The Internet of things (IoT) describes physical objects (or groups of such objects) with sensors, processing ability, software and other technologies that connect and exchange data with other devices and systems over the Internet or other comm ...
(IoT) to large,
64-bit CPU In computer architecture, 64-bit Integer (computer science), integers, memory addresses, or other Data (computing), data units are those that are 64 bits wide. Also, 64-bit central processing unit, CPUs and arithmetic logic unit, ALUs are those ...
s designed for warehouse-scale computers such as server farms based on
RapidIO The RapidIO architecture is a high-performance packet-switched electrical connection technology. RapidIO supports messaging, read/write and cache coherency semantics. Based on industry-standard electrical specifications such as those for Ethern ...
and
Hybrid Memory Cube Hybrid Memory Cube (HMC) is a high-performance computer random-access memory (RAM) interface for through-silicon vias (TSV)-based stacked DRAM memory competing with the incompatible rival interface High Bandwidth Memory (HBM). Overview Hybrid M ...
technologies. 32-bit Moushik successfully booted by RISE for the application of Credit cards, Electronic Voting Machines (EVMs), surveillance cameras, safe locks, personalized Health Management Systems. *
lowRISC lowRISC C.I.C. is a not-for-profit company headquartered in Cambridge, UK. It uses collaborative engineering to develop and maintain open source silicon designs and tools. lowRISC is active in RISC-V-related open source hardware and software d ...
is a non profit project to implement a fully
open-source hardware Open-source hardware (OSH) consists of physical artifacts of technology designed and offered by the open-design movement. Both free and open-source software (FOSS) and open-source hardware are created by this open-source culture movement and a ...
system on a chip A system on a chip or system-on-chip (SoC ; pl. ''SoCs'' ) is an integrated circuit that integrates most or all components of a computer or other electronic system. These components almost always include a central processing unit (CPU), memory ...
(SoC) based on the 64-bit RISC-V ISA. *
Nvidia Nvidia CorporationOfficially written as NVIDIA and stylized in its logo as VIDIA with the lowercase "n" the same height as the uppercase "VIDIA"; formerly stylized as VIDIA with a large italicized lowercase "n" on products from the mid 1990s to ...
plans to use RISC-V to replace their Falcon processor on their GeForce graphics cards. *RV64X consortium is working on a set of graphics extensions to RISC-V and has announced that they are developing an open source RISC-V core with a GPU unit. * SiFive announced their first RISC-V out-of-order high performance CPU core, the U8 Series Processor IP. * Esperanto ET-SoC-1, a 200 TOPS "kilocore" supercomputer on a chip, with 1088 small 64-bit in-order ET-Minion cores with tensor/vector units and 4 big 64-bit out-of-order ET-Maxion cores * Ventana revealed they are developing high performance RISC-V CPU IP and chiplet technology targeting data center applications.


Open source

Many open-sourced RISC-V CPU designs exist, including: * The Berkeley CPUs. These are implemented in a unique hardware design language,
Chisel A chisel is a tool with a characteristically shaped cutting edge (such that wood chisels have lent part of their name to a particular grind) of blade on its end, for carving or cutting a hard material such as wood, stone, or metal by hand, stru ...
, and some are named for famous train engines: ** 64-bit Rocket. Rocket may suit compact, low-power intermediate computers such as personal devices. Named for Stephenson's ''Rocket''. ** The
64-bit In computer architecture, 64-bit Integer (computer science), integers, memory addresses, or other Data (computing), data units are those that are 64 bits wide. Also, 64-bit central processing unit, CPUs and arithmetic logic unit, ALUs are those ...
Berkeley Out of Order Machine (BOOM). The Berkeley Out-of-Order Machine (BOOM) is a synthesizable and parameterizable open source RV64GC RISC-V core written in the Chisel hardware construction language. BOOM uses much of the infrastructure created for Rocket, and may be usable for personal, supercomputer, and warehouse-scale computers. ** Five
32-bit In computer architecture, 32-bit computing refers to computer systems with a processor, memory, and other major system components that operate on data in 32-bit units. Compared to smaller bit widths, 32-bit computers can perform large calculation ...
Sodor CPU designs from Berkeley, designed for student projects. Sodor is the fictional island of trains in children's stories about Thomas the Tank Engine. * picorv32 by Claire Wolf, a 32-bit microcontroller unit (MCU) class RV32IMC implementation in Verilog. * scr1 from Syntacore, a 32-bit microcontroller unit (MCU) class RV32IMC implementation in Verilog. * SERV is a physically-small, validated bit-serial RV32I core in Verilog. It is integrated with both the LiteX and FuseSoC SoC construction systems. An FPGA implementation was 354 lookup tables (LUTs) and 345
flip-flops Flip-flops are a type of light sandal, typically worn as a form of casual footwear. They consist of a flat sole held loosely on the foot by a Y-shaped strap known as a toe thong that passes between the first and second toes and around both side ...
, running at 1.5 MIPS, In a 130 nm-node ASIC, it was 0.04 mm2 and a high-end FPGA could hold 6,000 cores. * PULPino (Riscy and Zero-Riscy) from ETH Zürich / University of Bologna. The cores in PULPino implement a simple RV32IMC ISA for microcontrollers (Zero-Riscy) or a more powerful RV32IMFC ISA with custom DSP extensions for embedded signal processing. *
Western Digital Western Digital Corporation (WDC, commonly known as Western Digital or WD) is an American computer drive manufacturer and data storage company, headquartered in San Jose, California. It designs, manufactures and sells data technology produc ...
, in December 2018 announced an RV32IMC core called SweRV EH1 featuring an in-order 2-way superscalar and nine-stage pipeline design. In December 2019, WD announced the SweRV EH2 an in-order core with two hardware threads and a nine-stage pipeline and the SweRV EL2 a single issue core with a 4-stage pipeline WD plans to use SweRV based processors in their flash controllers and SSDs, and released it as open-source to third parties in January 2019. * NEORV32 by Stephan Nolting, a highly-configurable 32-bit microcontroller unit (MCU) class RV32 /EACUX_Zbb_Zfinx_Zicsr_Zifencei CPU with on-chip debugger support written in platform-independent VHDL. The project includes a microcontroller-like SoC that already includes common modules like UART, timers, SPI, TWI, a TRNG and embedded memories. * Alibaba Group, in July 2019 announced the 2.5 GHz 16-core 64-bit (RV64GCV) XuanTie 910 out-of-order processor. In October 2021 the XuanTie 910 was released as Open-Source. * The Institute of Computing Technology of the Chinese Academy of Sciences (ICT CAS), in June 2020 launched the XiangShan high-performance RISC-V processor project.


Software

A normal problem for a new instruction set is a lack of CPU designs and software — both issues limit its usability and reduce adoption. RISC-V has a large number of CPU designs. RISC-V software includes toolchains, operating systems,
middleware Middleware is a type of computer software that provides services to software applications beyond those available from the operating system. It can be described as "software glue". Middleware makes it easier for software developers to implement co ...
and design software. Available RISC-V software tools include a
GNU Compiler Collection The GNU Compiler Collection (GCC) is an optimizing compiler produced by the GNU Project supporting various programming languages, hardware architectures and operating systems. The Free Software Foundation (FSF) distributes GCC as free software ...
(GCC) toolchain (with
GDB The GNU Debugger (GDB) is a Software portability, portable debugger that runs on many Unix-like systems and works for many programming languages, including Ada (programming language), Ada, C (programming language), C, C++, Objective-C, Free Pasc ...
, the debugger), an
LLVM LLVM is a set of compiler and toolchain technologies that can be used to develop a front end for any programming language and a back end for any instruction set architecture. LLVM is designed around a language-independent intermediate represen ...
toolchain, the OVPsim simulator (and library of RISC-V Fast Processor Models), the Spike simulator, and a simulator in QEMU (RV32GC/RV64GC)
JEP 422: Linux/RISC-V Port
is already integrated into mainline OpenJDK repository. Operating system support exists for the
Linux Linux ( or ) is a family of open-source Unix-like operating systems based on the Linux kernel, an operating system kernel first released on September 17, 1991, by Linus Torvalds. Linux is typically packaged as a Linux distribution, which ...
kernel,
FreeBSD FreeBSD is a free and open-source Unix-like operating system descended from the Berkeley Software Distribution (BSD), which was based on Research Unix. The first version of FreeBSD was released in 1993. In 2005, FreeBSD was the most popular ...
,
NetBSD NetBSD is a free and open-source Unix operating system based on the Berkeley Software Distribution (BSD). It was the first open-source BSD descendant officially released after 386BSD was forked. It continues to be actively developed and is a ...
, and
OpenBSD OpenBSD is a security-focused, free and open-source, Unix-like operating system based on the Berkeley Software Distribution (BSD). Theo de Raadt created OpenBSD in 1995 by forking NetBSD 1.0. According to the website, the OpenBSD project em ...
but the supervisor-mode instructions were unstandardized before until version 1.11 of the privileged ISA specification, so this support is provisional. The preliminary FreeBSD port to the RISC-V architecture was upstreamed in February 2016, and shipped in FreeBSD 11.0. Ports of the
Debian Debian (), also known as Debian GNU/Linux, is a Linux distribution composed of free and open-source software, developed by the community-supported Debian Project, which was established by Ian Murdock on August 16, 1993. The first version of D ...
and
Fedora A fedora () is a hat with a soft brim and indented crown.Kilgour, Ruth Edwards (1958). ''A Pageant of Hats Ancient and Modern''. R. M. McBride Company. It is typically creased lengthwise down the crown and "pinched" near the front on both sides ...
Linux distribution A Linux distribution (often abbreviated as distro) is an operating system made from a software collection that includes the Linux kernel and, often, a package management system. Linux users usually obtain their operating system by downloading one ...
s, and a port of
Haiku is a type of short form poetry originally from Japan. Traditional Japanese haiku consist of three phrases that contain a ''kireji'', or "cutting word", 17 '' on'' (phonetic units similar to syllables) in a 5, 7, 5 pattern, and a ''kigo'', or se ...
, are stabilizing (both only support 64-bit RISC-V, with no plans to support 32-bit version). A port of Das U-Boot exists. UEFI Spec v2.7 has defined the RISC-V binding and a
TianoCore TianoCore EDK II (formerly Tiano) is the reference implementation of UEFI by Intel. EDK is the abbreviation for EFI Development Kit and is developed by the TianoCore community. TianoCore EDK II is the de facto standard generic UEFI services implem ...
port has been done by HPE engineers and is expected to be upstreamed. There is a preliminary port of the seL4 microkernel. Hex Five released the first Secure IoT Stack for RISC-V with FreeRTOS support. Also
xv6 xv6 is a modern reimplementation of Sixth Edition Unix in ANSI C for multiprocessor x86 and RISC-V systems. It was created for pedagogical purposes in MIT's Operating System Engineering course in 2006. Purpose MIT's Operating System Engineerin ...
, a modern reimplementation of
Sixth Edition Unix Sixth Edition Unix, also called Version 6 Unix or just V6, was the first version of the Unix operating system to see wide release outside Bell Labs. It was released in May 1975 and, like its direct predecessor, targeted the DEC PDP-11 family of m ...
in ANSI C used for pedagogical purposes in MIT, was ported. Pharos RTOS has been ported to 64-bit RISC-V (including time and memory protection). ''Also see'' Comparison of real-time operating systems. A simulator exists to run a RISC-V Linux system on a
web browser A web browser is application software for accessing websites. When a user requests a web page from a particular website, the browser retrieves its files from a web server and then displays the page on the user's screen. Browsers are used on ...
using
JavaScript JavaScript (), often abbreviated as JS, is a programming language that is one of the core technologies of the World Wide Web, alongside HTML and CSS. As of 2022, 98% of Website, websites use JavaScript on the Client (computing), client side ...
. QEMU supports running (using
binary translation In computing, binary translation is a form of binary recompilation where sequences of instructions are translated from a ''source'' instruction set to the ''target'' instruction set. In some cases such as instruction set simulation, the target ...
) 32- and 64-bit RISC-V systems (e.g. Linux) with a number of emulated or virtualized devices (serial, parallel, USB, network, storage, real time clock, watchdog, audio), as well as running RISC-V Linux binaries (translating syscalls to the host kernel). It does support multi-core emulation (SMP). The Creator simulator is portable and allows the user to learn various assembly languages of different processors (Creator has examples with an implementation of RISC-V and MIPS32 instructions). The extensible educational simulator WepSIM implements a
microprogrammed
subset of RISC-V instructions (RV32I+M) and allows the execution o

in assembly. A number of languages have been applied to creating RISC-V IP cores including a Scala-based hardware description language,
Chisel A chisel is a tool with a characteristically shaped cutting edge (such that wood chisels have lent part of their name to a particular grind) of blade on its end, for carving or cutting a hard material such as wood, stone, or metal by hand, stru ...
, which can reduce the designs to Verilog for use in devices, and the CodAL processor description language which has been used in to describe RISC-V processor cores and to generate corresponding HDKs ( RTL, testbench and UVM) and SDKs. The RISC-V International Compliance Task Group has a GitHub repository for RV32IMC.


Development tools

*
IAR Systems IAR Systems is a Swedish computer software company that offers development tools for embedded systems. IAR Systems was founded in 1983, and is listed on Nasdaq Nordic in Stockholm. IAR is an abbreviation of Ingenjörsfirma Anders Rundgren, which ...
released the first version of IAR Embedded Workbench for RISC-V, which supports RV32 32-bit RISC-V cores and extensions in the first version. Future releases will include 64-bit support and support for the smaller RV32E base instruction set, as well as functional safety certification and security solutions. * Lauterbach added support for RISC-V to their TRACE32
JTAG JTAG (named after the Joint Test Action Group which codified it) is an Technical standard, industry standard for verifying designs and testing printed circuit boards after manufacture. JTAG implements standards for on-chip instrumentation in ele ...
debuggers. Lauterbach also announced support for SiFives RISC-V
NEXUS NEXUS is a joint Canada Border Services Agency and U.S. Customs and Border Protection-operated Trusted Traveler and Border control#Expedited border controls, expedited border control program designed for pre-approved, low-risk travelers. Members ...
based processor trace. *
SEGGER Segger Microcontroller, founded in 1992, is a private company involved in the embedded systems industry. It provides products used to develop and manufacture four categories of embedded systems: real-time operating systems (RTOS) and software l ...
added support for RISC-V cores to their debug probe J-Link, their integrated development environment Embedded Studio, and their RTOS embOS and embedded software.
UltraSOC
proposed a standard trace system and donated an implementation.


See also

*
List of open-source computing hardware Open-source hardware comprises computers and computer components with an open design. They are designed as open-source hardware using open-source model, open-source principles. Partially open-source hardware Hardware that uses closed source c ...
*
Microprocessor chronology 1970s The first microprocessors were designed and manufactured in the 1970s. Intel's 4004 of 1971 is widely regarded as the first commercial microprocessor. Designers predominantly used MOSFET transistors with pMOS logic in the early 1970s, swi ...


References


Further reading

* * * * * * * *


External links

* * * * * * {{Microcontrollers 64-bit computers Computer-related introductions in 2010 Instruction set architectures Microcontrollers Open microprocessors Lists of microprocessors