The Pentium (also referred to as P5, its microarchitecture, or i586) is a fifth generation, 32-bit x86
microprocessor
A microprocessor is a computer processor where the data processing logic and control is included on a single integrated circuit, or a small number of integrated circuits. The microprocessor contains the arithmetic, logic, and control circ ...
that was introduced 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 ...
on March 22, 1993, as the very first CPU in the
Pentium brand. It was instruction set compatible with the
80486 but was a new and very different microarchitecture design from previous iterations. The P5 Pentium was the first
superscalar 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 intr ...
microarchitecture and the world's first superscalar microprocessor to be in mass productionmeaning it generally executes at least 2 instructions per clock mainly because of a design-first dual
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 languag ...
pipeline design previously thought impossible to implement on a CISC microarchitecture. Additional features include a faster
floating-point unit, wider
data bus
In computer architecture, a bus (shortened form of the Latin '' omnibus'', and historically also called data highway or databus) is a communication system that transfers data between components inside a computer, or between computers. This e ...
, separate code and
data cache
A CPU cache is a hardware cache used by the central processing unit (CPU) of a computer to reduce the average cost (time or energy) to access data from the main memory. A cache is a smaller, faster memory, located closer to a processor core, whi ...
s, and many other techniques and features to enhance performance and support security, encryption, and multiprocessing, for workstations and servers when compared to the next best previous industry standard processor implementation before it, the Intel 80486.
Considered the fifth main generation in the 8086 compatible line of processors, its implementation and
microarchitecture was called ''P5''. As with all new processors from Intel since the Pentium, some new instructions were added to enhance performance for specific types of workloads.
The Pentium was the first Intel x86 to build in robust hardware support for multiprocessing similar to that of large IBM mainframe computers. Intel worked closely with IBM to define this ability and then Intel designed it into the P5 microarchitecture. This new ability was absent in prior x86 generations and x86 copies from competitors.
To realize its greatest potential, compilers had to be optimized to exploit the instruction level parallelism provided by the new superscalar dual pipelines and applications needed to be recompiled. Intel spent substantial effort and resources working with development tool vendors, and major
independent software vendor
An independent software vendor (ISV), also known as a software publisher, is an organization specializing in making and selling software, as opposed to computer hardware, designed for mass or niche markets. This is in contrast to in-house software, ...
(ISV) 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 i ...
(OS) companies to optimize their products for Pentium before product launch.
In October 1996, the similar Pentium MMX was introduced, complementing the same basic microarchitecture with the
MMX instruction set, larger caches, and some other enhancements.
Competitors included the
Motorola 68040
The Motorola 68040 ("''sixty-eight-oh-forty''") is a 32-bit microprocessor in the Motorola 68000 series, released in 1990. It is the successor to the 68030 and is followed by the 68060, skipping the 68050. In keeping with general Motorola na ...
,
Motorola 68060
The Motorola 68060 ("''sixty-eight-oh-sixty''") is a 32-bit microprocessor from Motorola released in 1994. It is the successor to the Motorola 68040 and is the highest performing member of the 68000 series. Two derivatives were produced, the 68L ...
,
PowerPC 601 The PowerPC 600 family was the first family of PowerPC processors built. They were designed at the Somerset facility in Austin, Texas, jointly funded and staffed by engineers from IBM and Motorola as a part of the AIM alliance. Somerset was opened ...
, and the
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 develope ...
,
MIPS,
Alpha families, most of which also used a superscalar in-order dual instruction pipeline configuration at some time.
Intel discontinued the P5 Pentium processors (sold as a cheaper product since the release of the
Pentium II
The Pentium II brand refers to Intel's sixth-generation microarchitecture (" P6") and x86-compatible microprocessors introduced on May 7, 1997. Containing 7.5 million transistors (27.4 million in the case of the mobile Dixon with 256 KB ...
in 1997) in early 2000 in favor of the
Celeron
Celeron is Intel's brand name for low-end IA-32 and x86-64 computer microprocessor models targeted at low-cost personal computers.
Celeron processors are compatible with IA-32 software. They typically offer less performance per clock speed com ...
processor, which had also replaced the
80486 brand.
Development
The P5 microarchitecture was designed by the same Santa Clara team which designed the 386 and 486. Design work started in 1989; the team decided to use a
superscalar architecture, with on-chip cache, floating-point, and branch prediction. The preliminary design was first successfully simulated in 1990, followed by the
laying-out of the design. By this time, the team had several dozen engineers. The design was
taped out
''Taped'' is a 2012 Dutch thriller film directed by Diederik van Rooijen.
The film won the Best Feature Film award at the 2012 Stony Brook Film Festival. Susan Visser was also nominated for the Golden Calf for Best Actress for her role in the ...
, or transferred to silicon, in April 1992, at which point beta-testing began. By mid-1992, the P5 team had 200 engineers. Intel at first planned to demonstrate the P5 in June 1992 at the trade show
PC Expo
PC or pc may refer to:
Arts and entertainment
* Player character or playable character, a fictional character controlled by a human player, usually in role-playing games or computer games
* ''Port Charles'', an American daytime TV soap opera
* ...
, and to formally announce the processor in September 1992, but design problems forced the demo to be cancelled, and the official introduction of the chip was delayed until the spring of 1993.
John H. Crawford
John H. Crawford (born February 2, 1953) is an American computer engineer.
During a long career at Intel starting in 1977, he was the chief architect of the Intel 80386 and Intel 80486 microprocessors. He also co-managed the design of the Inte ...
, chief architect of the original 386, co-managed the design of the P5, along with Donald Alpert, who managed the architectural team. Dror Avnon managed the design of the FPU.
Vinod K. Dham
Vinod Dham is an Indian-American engineer, entrepreneur and venture capitalist. He is known as 'Father of the Pentium Chip' for his contribution to the development of Intel's Pentium micro-processor He is a mentor, advisor and sits on the boa ...
was general manager of the P5 group.
Intel's
Larrabee multicore architecture project uses a processor core derived from a P5 core (P54C), augmented by
multithreading,
64-bit instructions, and a 16-wide
vector processing unit. Intel's low-powered
Bonnell microarchitecture employed in early
Atom
Every atom is composed of a nucleus and one or more electrons bound to the nucleus. The nucleus is made of one or more protons and a number of neutrons. Only the most common variety of hydrogen has no neutrons.
Every solid, liquid, gas, ...
processor cores also uses an in-order dual pipeline similar to P5.
Intel used the Pentium name instead of 80586, because it discovered that numbers cannot be
trademarked
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. ...
.
Improvements over the i486
The P5 microarchitecture brings several important advances over the prior i486 architecture.
* ''Performance'':
**
Superscalar architecture – The Pentium has two datapaths (pipelines) that allow it to complete two instructions per clock cycle in many cases. The main pipe (U) can handle any instruction, while the other (V) can handle the most common simple instructions. Some
reduced instruction set computer (RISC) proponents had argued that the "complicated" x86 instruction set would probably never be implemented by a tightly pipelined
microarchitecture, much less by a dual-pipeline design. The 486 and the Pentium demonstrated that this was indeed possible and feasible.
**
64-bit
In computer architecture, 64-bit integers, memory addresses, or other data units are those that are 64 bits wide. Also, 64-bit CPUs and ALUs are those that are based on processor registers, address buses, or data buses of that size. A compu ...
external databus doubles the amount of information possible to read or write on each memory access and therefore allows the Pentium to load its code cache faster than the 80486; it also allows faster access and storage of 64-bit and 80-bit
x87 FPU data.
** Separation of code and data caches lessens the fetch and operand read/write conflicts compared to the 486. To reduce access time and implementation cost, both of them are
2-way associative, instead of the single 4-way cache of the 486. A related enhancement in the Pentium is the ability to read a contiguous block from the code cache even when it is split between two cache lines (at least 17 bytes in worst case).
** Much faster
floating-point unit. Some instructions showed an enormous improvement, most notably FMUL, with up to 15 times higher throughput than in the 80486 FPU. The Pentium is also able to execute a FXCH ST(x) instruction in parallel with an ordinary (arithmetical or load/store) FPU instruction.
** Four-input address adders enables the Pentium to further reduce the address calculation latency compared to the 80486. The Pentium can calculate full addressing modes with ''segment-base'' + ''base-register'' + ''scaled register'' + ''immediate offset'' in a single cycle; the 486 has a three-input address adder only, and must therefore divide such calculations between two cycles.
** The
microcode can employ both pipelines to enable auto-repeating instructions such as REP MOVSW perform one iteration every clock cycle, while the
80486 needed three clocks per iteration (and the earliest x86 chips significantly more than the 486). Also, optimization of the access to the first microcode words during the decode stages helps in making several frequent instructions execute significantly more quickly, especially in their most common forms and in typical cases. Some examples are (486→Pentium, in clock cycles): CALL (3→1), RET (5→2), shifts/rotates (2–3→1).
** A faster, fully hardware-based multiplier makes instructions such as MUL and IMUL several times faster (and more predictable) than in the 80486; the execution time is reduced from 13 to 42 clock cycles down to 10–11 for 32-bit operands.
** Virtualized interrupt to speed up
virtual 8086 mode
In the 80386 microprocessor and later, virtual 8086 mode (also called virtual real mode, V86-mode, or VM86) allows the execution of real mode applications that are incapable of running directly in protected mode while the processor is running a ...
.
** Branch prediction
* ''Other features'':
** Enhanced debug features with the introduction of the Processor-based debug port (see ''Pentium Processor Debugging'' in the Developers Manual, Vol 1).
** Enhanced self-test features like the L1 cache parity check (see ''Cache Structure'' in the Developers Manual, Vol 1).
** New instructions: CPUID, CMPXCHG8B, RDTSC, RDMSR, WRMSR, RSM.
** Test registers TR0–TR7 and MOV instructions for access to them were eliminated.
* The later Pentium MMX also added the
MMX instruction set, a basic integer ''single instruction, multiple data'' (
SIMD
Single instruction, multiple data (SIMD) is a type of parallel processing in Flynn's taxonomy. SIMD can be internal (part of the hardware design) and it can be directly accessible through an instruction set architecture (ISA), but it shoul ...
) instruction set extension marketed for use in
multimedia
Multimedia is a form of communication that uses a combination of different content forms such as text, audio, images, animations, or video into a single interactive presentation, in contrast to tradit ...
applications. MMX could not be used simultaneously with the
x87 FPU instructions because the registers were reused (to allow fast context switches). More important enhancements were the doubling of the instruction and data cache sizes and a few microarchitectural changes for better performance.
The Pentium was designed to execute over 100 million
instructions per second
Instructions per second (IPS) is a measure of a computer's processor speed. For complex instruction set computers (CISCs), different instructions take different amounts of time, so the value measured depends on the instruction mix; even for co ...
(MIPS), and the 75 MHz model was able to reach 126.5 MIPS in certain benchmarks. The Pentium architecture typically offered just under twice the performance of a 486 processor per clock cycle in common benchmarks. The fastest 80486 parts (with slightly improved microarchitecture and 100 MHz operation) were almost as powerful as the first-generation Pentiums, and the
AMD
Advanced Micro Devices, Inc. (AMD) is an American multinational semiconductor company based in Santa Clara, California, that develops computer processors and related technologies for business and consumer markets. While it initially manufactur ...
Am5x86
The Am5x86 processor is an x86-compatible CPU announced in November of 1995 by AMD for use in 486-class computer systems. It began shipping in December of 1995, with a base price of $93 per unit in bulk quantities. Before being released, it wa ...
, which despite its name is actually a 486-class CPU, was roughly equal to the Pentium 75 regarding pure ALU performance.
Errata
The early versions of 60–100 MHz P5 Pentiums had a problem in the floating-point unit that resulted in incorrect (but predictable) results from some division operations. This flaw, discovered in 1994 by professor Thomas Nicely at Lynchburg College, Virginia, became widely known as the
Pentium FDIV bug and caused embarrassment for Intel, which created an exchange program to replace the faulty processors.
In 1997, another erratum was discovered that could allow a malicious program to crash a system without any special privileges, the "
F00F bug". All P5 series processors were affected and no fixed steppings were ever released, however contemporary operating systems were patched with workarounds to prevent crashes.
Cores and steppings
The Pentium was Intel's primary microprocessor for personal computers during the mid-1990s. The original design was reimplemented in newer processes and new features were added to maintain its competitiveness, and to address specific markets such as portable computers. As a result, there were several variants of the P5 microarchitecture.
P5
The first Pentium microprocessor core was code-named "P5". Its product code was 80501 (80500 for the earliest
steppings Q0399). There were two versions, specified to operate at 60 MHz and 66 MHz respectively, using
Socket 4
Socket 4, presented in 1993, was the first CPU socket designed for the early P5 Pentium microprocessors. Socket 4 was the only 5-volt socket for the Pentium. Socket 4 does support a special Pentium OverDrive, which allows running at 120 M ...
. This first implementation of the Pentium used a traditional 5-volt power supply (descended from the usual
transistor-transistor logic (TTL) compatibility requirements). It contained 3.1 million
transistor
upright=1.4, gate (G), body (B), source (S) and drain (D) terminals. The gate is separated from the body by an insulating layer (pink).
A transistor is a semiconductor device used to Electronic amplifier, amplify or electronic switch, switch ...
s and measured 16.7 mm by 17.6 mm for an area of 293.92 mm
2.
[Case, Brian (March 29, 1993). "Intel Reveals Pentium Implementation Details". '']Microprocessor Report
''Microprocessor Report'' is a newsletter covering the microprocessor industry. The publication is accessible only to paying subscribers. To avoid bias, it does not take advertisements.
The publication provides extensive analysis of new high-perfo ...
''. It was fabricated in a
0.8 μm bipolar complementary metal–oxide–semiconductor (
BiCMOS
Bipolar CMOS (BiCMOS) is a semiconductor technology that integrates two semiconductor technologies, those of the bipolar junction transistor and the CMOS (complementary metal-oxide-semiconductor) logic gate, into a single integrated circuit. In ...
) process. The 5-volt design resulted in relatively high energy consumption for its operating frequency when compared to the directly following models.
P54C
The P5 was followed by the P54C (80502) in 1994, with versions specified to operate at 75, 90, or 100 MHz using a 3.3 volt power supply. Marking the switch to
Socket 5
Socket 5 was created for the second generation of Intel P5 Pentium processors operating at speeds from 75 to 133 MHz as well as certain Pentium OverDrive and Pentium MMX processors with core voltage 3.3 V. It superseded the earlier Sock ...
, this was the first Pentium processor to operate at 3.3 volts, reducing energy consumption, but necessitating voltage regulation on mainboards. As with higher-clocked 486 processors, an internal clock multiplier was employed from here on to let the internal circuitry work at a higher frequency than the external address and data buses, as it is more complicated and cumbersome to increase the external frequency, due to physical constraints. It also allowed two-way multiprocessing, and had an integrated
local APIC
In computing, Intel's Advanced Programmable Interrupt Controller (APIC) is a family of interrupt controllers. As its name suggests, the APIC is more advanced than Intel's 8259 Programmable Interrupt Controller (PIC), particularly enabling the co ...
and new power management features. It contained 3.3 million transistors and measured 163 mm
2.
It was fabricated in a BiCMOS process which has been described as both 0.5 μm and
0.6 μm due to differing definitions.
P54CQS
The P54C was followed by the P54CQS in early 1995, which operated at 120 MHz. It was fabricated in a
0.35 μm BiCMOS process and was the first commercial microprocessor to be fabricated in a 0.35 μm process.
[Gwennap, Linley (March 27, 1995). "Pentium is First CPU to Reach 0.35 Micron". '']Microprocessor Report
''Microprocessor Report'' is a newsletter covering the microprocessor industry. The publication is accessible only to paying subscribers. To avoid bias, it does not take advertisements.
The publication provides extensive analysis of new high-perfo ...
''. Its transistor count is identical to the P54C and, despite the newer process, it had an identical die area as well. The chip was connected to the package using
wire bonding
Wire bonding is the method of making interconnections between an integrated circuit (IC) or other semiconductor device and its packaging during semiconductor device fabrication. Although less common, wire bonding can be used to connect an IC ...
, which only allows connections along the edges of the chip. A smaller chip would have required a redesign of the package, as there is a limit on the length of the wires and the edges of the chip would be further away from the pads on the package. The solution was to keep the chip the same size, retain the existing
pad-ring, and only reduce the size of the Pentium's logic circuitry to enable it to achieve higher clock frequencies.
P54CS
The P54CQS was quickly followed by the P54CS, which operated at 133, 150, 166 and 200 MHz, and introduced
Socket 7
Socket 7 is a physical and electrical specification for an x86-style CPU socket on a personal computer motherboard. It was released in June 1995. The socket supersedes the earlier Socket 5, and accepts P5 Pentium microprocessors manufactured by ...
. It contained 3.3 million transistors, measured 90 mm
2 and was fabricated in a 0.35 μm BiCMOS process with four levels of interconnect.
P24T
The P24T
Pentium OverDrive The Pentium OverDrive was a microprocessor marketing brand name used by Intel, to cover a variety of consumer upgrade products sold in the mid-1990s. It was originally released for 486 motherboards, and later some Pentium sockets. Intel dropped the ...
for
486 systems were released in 1995, which were based on 3.3 V 0.6 μm versions using a 63 or 83 MHz clock. Since these used
Socket 2
Socket 2 was one of the series of CPU sockets into which various x86 microprocessors were inserted. It was an updated Socket 1 with added support for Pentium OverDrive processors.
Socket 2 was a 238-pin low insertion force (LIF) or zero insert ...
/
3, some modifications had to be made to compensate for the 32-bit data bus and slower on-board L2 cache of 486 motherboards. They were therefore equipped with a 32
KB L1 cache (double that of pre-P55C Pentium CPUs).
P55C
The P55C (or 80503) was developed by Intel's Research & Development Center in
Haifa, Israel
Haifa ( he, חֵיפָה ' ; ar, حَيْفَا ') is the third-largest city in Israel—after Jerusalem and Tel Aviv—with a population of in . The city of Haifa forms part of the Haifa metropolitan area, the third-most populous metropol ...
. It was sold as Pentium with
MMX Technology (usually just called Pentium MMX); although it was based on the P5 core, it featured a new set of 57 "MMX" instructions intended to improve performance on multimedia tasks, such as encoding and decoding digital media data. The Pentium MMX line was introduced on October 22, 1996, and released in January 1997.
The new instructions worked on new data types: 64-bit packed vectors of either eight 8-bit integers, four 16-bit integers, two 32-bit integers, or one 64-bit integer. So, for example, the PADDUSB (Packed ADD Unsigned Saturated Byte) instruction adds two vectors, each containing eight 8-bit unsigned integers together, elementwise; each addition that would
overflow ''saturates'', yielding 255, the maximal unsigned value that can be represented in a byte. These rather specialized instructions generally require special coding by the programmer for them to be used.
Other changes to the core include a 6-stage pipeline (vs. 5 on P5) with a return stack (first done on Cyrix 6x86) and better parallelism, an improved instruction decoder, 16KB L1 data cache + 16KB L1 instruction cache with Both 4-way associativity (vs. 8KB L1 Data/instruction with 2-way on P5), 4 write buffers that could now be used by either pipeline (vs. one corresponding to each pipeline on P5) and an improved
branch predictor
In computer architecture, a branch predictor is a digital circuit that tries to guess which way a branch (e.g., an if–then–else structure) will go before this is known definitively. The purpose of the branch predictor is to improve the flow ...
taken from the Pentium Pro,
with a 512-entry buffer (vs. 256 on P5).
It contained 4.5 million transistors and had an area of 140 mm
2. It was fabricated in a 0.28 μm CMOS process with the same metal pitches as the previous 0.35 μm BiCMOS process, so Intel described it as "0.35 μm" because of its similar transistor density.
[Slater, Michael (March 5, 1996). "Intel's Long-Awaited P55C Disclosed". '']Microprocessor Report
''Microprocessor Report'' is a newsletter covering the microprocessor industry. The publication is accessible only to paying subscribers. To avoid bias, it does not take advertisements.
The publication provides extensive analysis of new high-perfo ...
''. The process has four levels of interconnect.
While the P55C remained compatible with
Socket 7
Socket 7 is a physical and electrical specification for an x86-style CPU socket on a personal computer motherboard. It was released in June 1995. The socket supersedes the earlier Socket 5, and accepts P5 Pentium microprocessors manufactured by ...
, the voltage requirements for powering the chip differ from the standard Socket 7 specifications. Most motherboards manufactured for Socket 7 before the establishment of the P55C standard are not compliant with the dual voltage rail required for proper operation of this CPU (2.8 volt core voltage, 3.3 volt
input/output
In computing, input/output (I/O, or informally io or IO) is the communication between an information processing system, such as a computer, and the outside world, possibly a human or another information processing system. Inputs are the signals ...
(I/O) voltage). Intel addressed the issue with OverDrive upgrade kits that featured an interposer with its own voltage regulation.
Tillamook
Pentium MMX notebook CPUs used a ''mobile module'' that held the CPU. This module was a
printed circuit board (PCB) with the CPU directly attached to it in a smaller form factor. The module snapped to the notebook motherboard, and typically a
heat spreader
A heat spreader transfers energy as heat from a hotter source to a colder heat sink or heat exchanger. There are two thermodynamic types, passive and active. The most common sort of passive heat spreader is a plate or block of material having hi ...
was installed and made contact with the module. However, with the 0.25 μm ''Tillamook'' Mobile Pentium MMX (named after a
city in Oregon), the module also held the
430TX
This article provides a list of motherboard chipsets made by Intel, divided into three main categories: those that use the PCI bus for interconnection (the 4xx series), those that connect using specialized "hub links" (the 8xx series), and those ...
chipset along with the system's 512 KB
static random-access memory
Static random-access memory (static RAM or SRAM) is a type of random-access memory (RAM) that uses latching circuitry (flip-flop) to store each bit. SRAM is volatile memory; data is lost when power is removed.
The term ''static'' differe ...
(SRAM) cache memory.
Models and variants
Competitors
After the introduction of the Pentium, competitors such as
NexGen, AMD,
Cyrix, and
Texas Instruments
Texas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globa ...
announced Pentium-compatible processors in 1994. ''
CIO magazine
''CIO'' is a magazine related to technology and IT. The magazine was founded in 1987 and is now entirely digital. The name refers to the job title chief information officer.
''CIO'' is part of Boston-based International Data Group's enterprise ...
'' identified NexGen's Nx586 as the first Pentium-compatible CPU, while ''
PC Magazine'' described the
Cyrix 6x86
The Cyrix 6x86 is a line of sixth-generation, 32-bit x86 microprocessors designed and released by Cyrix in 1995. Cyrix, being a fabless company, had the chips manufactured by IBM and SGS-Thomson. The 6x86 was made as a direct competitor to In ...
as the first. These were followed by the
AMD K5
The K5 is AMD's first x86 processor to be developed entirely in-house. Introduced in March 1996, its primary competition was Intel's Pentium microprocessor. The K5 was an ambitious design, closer to a Pentium Pro than a Pentium regarding techn ...
, which was delayed due to design difficulties. AMD later bought NexGen to help design the
AMD K6
Advanced Micro Devices, Inc. (AMD) is an American multinational semiconductor company based in Santa Clara, California, that develops computer processors and related technologies for business and consumer markets. While it initially manufactur ...
, and Cyrix was bought by
National Semiconductor
National Semiconductor was an American semiconductor manufacturer which specialized in analog devices and subsystems, formerly with headquarters in Santa Clara, California. The company produced power management integrated circuits, display dr ...
.
Later processors from AMD and Intel retain compatibility with the original Pentium.
List
*
AMD K5
The K5 is AMD's first x86 processor to be developed entirely in-house. Introduced in March 1996, its primary competition was Intel's Pentium microprocessor. The K5 was an ambitious design, closer to a Pentium Pro than a Pentium regarding techn ...
,
AMD K6
Advanced Micro Devices, Inc. (AMD) is an American multinational semiconductor company based in Santa Clara, California, that develops computer processors and related technologies for business and consumer markets. While it initially manufactur ...
*
Cyrix 6x86
The Cyrix 6x86 is a line of sixth-generation, 32-bit x86 microprocessors designed and released by Cyrix in 1995. Cyrix, being a fabless company, had the chips manufactured by IBM and SGS-Thomson. The 6x86 was made as a direct competitor to In ...
*
WinChip
The WinChip series was a low-power Socket 7-based x86 processor designed by Centaur Technology and marketed by its parent company IDT.
Overview
Design
The design of the WinChip was quite different from other processors of the time. Instead o ...
C6
* NexGen
Nx586
* Rise
mP6
See also
*
List of Intel CPU microarchitectures
The following is a ''partial'' list of Intel CPU microarchitectures. The list is ''incomplete''. Additional details can be found in Intel's Tick–tock model and Process–architecture–optimization model.
x86 microarchitectures
16-bit
; ...
*
List of Intel Pentium processors
The Intel Pentium brand is a line of mainstream x86-architecture microprocessors from Intel. Processors branded Pentium Processor with MMX Technology (and referred to as Pentium MMX for brevity) are also listed here.
Desktop processors
P5 ...
*
Cache on a stick
COASt, an acronym for "cache on a stick", is a packaging standard for modules containing SRAM used as an L2 cache in a computer. COASt modules look like somewhat oversized SIMM modules. These modules were somewhat popular in the Apple and PC plat ...
(COASt), L2 cache modules for Pentium
*
IA-32
IA-32 (short for "Intel Architecture, 32-bit", commonly called i386) is the 32-bit version of the x86 instruction set architecture, designed by Intel and first implemented in the 80386 microprocessor in 1985. IA-32 is the first incarnation o ...
instruction set architecture (ISA)
*
Intel 82497 cache controller
References
External links
CPU-Collection.de- Intel Pentium images and descriptions
The Pentium Timeline ProjectThe Pentium Timeline Project maps oldest and youngest chip known of every s-spec made. Data are shown in an interactive timeline.
Intel datasheets
Pentium (P5)Pentium (P54)Pentium MMX (P55C)Mobile Pentium MMX (P55C)Mobile Pentium MMX (Tillamook)
Intel manuals
These official manuals provide an overview of the Pentium processor and its features:
* Pentium Processor Family Developer's Manua
Pentium Processor (Volume 1)(Intel order number 241428)
* Pentium Processor Family Developer's Manual
tp://download.intel.com/design/pentium/manuals/24319101.PDF Volume 2: Instruction Set Reference (Intel order number 243191)
* Pentium Processor Family Developer's Manual
tp://download.intel.com/design/pentium/manuals/24143004.pdf Volume 3: Architecture and Programming Manual(Intel order number 241430)
{{Authority control
Computer-related introductions in 1993
Intel x86 microprocessors
Intel microarchitectures
Superscalar microprocessors
32-bit microprocessors