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JTAG (named after the Joint Test Action Group which codified it) is an
industry standard ''Industry Standard'' is the sixth studio album by the Dixie Dregs, released in 1982. This was the second of two albums released under the moniker The Dregs, and is their only album featuring vocals (by Alex Ligertwood of Santana and Patrick Sim ...
for verifying designs and testing
printed circuit board A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in Electrical engineering, electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a L ...
s after manufacture. JTAG implements standards for on-chip instrumentation in
electronic design automation Electronic design automation (EDA), also referred to as electronic computer-aided design (ECAD), is a category of software tools for designing Electronics, electronic systems such as integrated circuits and printed circuit boards. The tools wo ...
(EDA) as a complementary tool to digital simulation. It specifies the use of a dedicated
debug port A debug port is a chip-level diagnostic interface (akin to a computer port) included in an integrated circuit to aid design, fabrication, development, bootstrapping, configuration, debugging, and post-sale in-system programming. In general te ...
implementing a
serial communication In telecommunication and data transmission, serial communication is the process of sending data one bit at a time, sequentially, over a communication channel or computer bus. This is in contrast to parallel communication, where several bits are ...
s interface for low-overhead access without requiring direct external access to the system address and data buses. The interface connects to an on-chip Test Access Port (TAP) that implements a
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protocol to access a set of test registers that present chip logic levels and device capabilities of various parts. The Joint Test Action Group formed in 1985 to develop a method of verifying designs and testing
printed circuit board A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in Electrical engineering, electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a L ...
s after manufacture. In 1990 the
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers (IEEE) is a 501(c)(3) professional association for electronic engineering and electrical engineering (and associated disciplines) with its corporate office in New York City and its operation ...
codified the results of the effort in IEEE Standard 1149.1-1990, entitled ''Standard Test Access Port and Boundary-Scan Architecture''. The JTAG standards have been extended by many semiconductor chip manufacturers with specialized variants to provide vendor-specific features.


History

In the 1980s, multi-layer circuit boards and
integrated circuit An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
s (ICs) using ball grid array and similar mounting technologies were becoming standard, and connections were being made between ICs that were not available to probes. The majority of manufacturing and field faults in circuit boards were due to poor solder joints on the boards, imperfections among board connections, or the bonds and bond wires from IC pads to pin lead frames. The Joint Test Action Group (JTAG) was formed in 1985 to provide a pins-out view from one IC pad to another so these faults could be discovered. The industry standard became an
IEEE The Institute of Electrical and Electronics Engineers (IEEE) is a 501(c)(3) professional association for electronic engineering and electrical engineering (and associated disciplines) with its corporate office in New York City and its operation ...
standard in 1990 as IEEE Std. 1149.1-1990Copies o
IEEE 1149.1-1990
or its 2001 update may be bought from the IEEE.
after many years of initial use. In the same year,
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 ...
released their first
processor Processor may refer to: Computing Hardware * Processor (computing) **Central processing unit (CPU), the hardware within a computer that executes a program *** Microprocessor, a central processing unit contained on a single integrated circuit (I ...
with JTAG (the
80486 The Intel 486, officially named i486 and also known as 80486, is a microprocessor. It is a higher-performance follow-up to the Intel 386. The i486 was introduced in 1989. It represents the fourth generation of binary compatible CPUs following the ...
) which led to quicker industry adoption by all manufacturers. In 1994, a supplement that contains a description of the
boundary scan description language Boundary scan description language (BSDL) is a hardware description language for electronics testing using JTAG. It has been added to the IEEE Std. 1149.1, and BSDL files are increasingly well supported by JTAG tools for boundary scan application ...
(BSDL) was added. Further refinements regarding the use of all-zeros for EXTEST, separating the use of SAMPLE from PRELOAD and better implementation for OBSERVE_ONLY cells were made and released in 2001. Since 1990, this standard has been adopted by
electronics The field of electronics is a branch of physics and electrical engineering that deals with the emission, behaviour and effects of electrons using electronic devices. Electronics uses active devices to control electron flow by amplification ...
companies around the world.
Boundary scan Boundary scan is a method for testing interconnects (wire lines) on printed circuit boards or sub-blocks inside an integrated circuit. Boundary scan is also widely used as a debugging method to watch integrated circuit pin states, measure voltage ...
is now mostly synonymous with JTAG, but JTAG has essential uses beyond such manufacturing applications.


Debugging

Although JTAG's early applications targeted board level testing, here the JTAG standard was designed to assist with device, board, and system testing,
diagnosis Diagnosis is the identification of the nature and cause of a certain phenomenon. Diagnosis is used in many different disciplines, with variations in the use of logic, analytics, and experience, to determine " cause and effect". In systems engin ...
, and fault isolation. Today JTAG is used as the primary means of accessing sub-blocks of
integrated circuit An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
s, making it an essential mechanism for
debugging In computer programming and software development, debugging is the process of finding and resolving '' bugs'' (defects or problems that prevent correct operation) within computer programs, software, or systems. Debugging tactics can involve in ...
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 which might not have any other debug-capable communications channel. On most systems, JTAG-based debugging is available from the very first instruction after CPU reset, letting it assist with development of early boot software which runs before anything is set up. An
in-circuit emulator In-circuit emulation (ICE) is the use of a hardware device or in-circuit emulator used to debug the software of an embedded system. It operates by using a processor with the additional ability to support debugging operations, as well as to carr ...
(or, more correctly, a "JTAG adapter") uses JTAG as the transport mechanism to access on-chip
debug In computer programming and software development, debugging is the process of finding and resolving '' bugs'' (defects or problems that prevent correct operation) within computer programs, software, or systems. Debugging tactics can involve int ...
modules inside the target
CPU A central processing unit (CPU), also called a central processor, main processor or just processor, is the electronic circuitry that executes instructions comprising a computer program. The CPU performs basic arithmetic, logic, controlling, and ...
. Those modules let software developers debug the software of 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 ...
directly at the machine instruction level when needed, or (more typically) in terms of high level language source code. System software debug support is for many software developers the main reason to be interested in JTAG. Many silicon architectures such as PowerPC, MIPS, ARM, and x86 built an entire software debug, instruction tracing, and data tracing infrastructure around the basic JTAG protocol. Frequently individual silicon vendors however only implement parts of these extensions. Some examples are ARM
CoreSight 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 ...
and
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as well as Intel's BTS (Branch Trace Storage), LBR (Last Branch Record), and IPT (Intel Processor Trace) implementations. There are many other such silicon vendor-specific extensions that may not be documented except under
NDA NDA may stand for: Military * National Defence Academy (India), a military academy in India * National Defence Act, legislation for organizing and funding Canada's military * National Defense Academy of Japan, a military academy in Japan * Nig ...
. The adoption of the JTAG standard helped move JTAG-centric debugging environments away from early processor-specific designs. Processors can normally be halted, single stepped, or let run freely. One can set code breakpoints, both for code in RAM (often using a special machine instruction) and in ROM/flash. Data breakpoints are often available, as is bulk data download to RAM. Most designs have "halt mode debugging", but some allow debuggers to access registers and data buses without needing to halt the core being debugged. Some toolchains can use ARM Embedded Trace Macrocell (ETM) modules, or equivalent implementations in other architectures to trigger debugger (or tracing) activity on complex hardware events, like a
logic analyzer A logic analyzer is an electronic instrument that captures and displays multiple signals from a digital system or digital circuit. A logic analyzer may convert the captured data into timing diagrams, protocol decodes, state machine traces, a ...
programmed to ignore the first seven accesses to a register from one particular subroutine. Sometimes
FPGA 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 de ...
developers also use JTAG to develop debugging tools.Select the right FPGA debug method
presents one of the models for such tools.
The same JTAG techniques used to debug software running inside a
CPU A central processing unit (CPU), also called a central processor, main processor or just processor, is the electronic circuitry that executes instructions comprising a computer program. The CPU performs basic arithmetic, logic, controlling, and ...
can help debug other digital design blocks inside an FPGA. For example, custom JTAG instructions can be provided to allow reading registers built from arbitrary sets of signals inside the FPGA, providing visibility for behaviors which are invisible to boundary scan operations. Similarly, writing such registers could provide controllability which is not otherwise available.


Storing firmware

JTAG allows device programmer hardware to transfer data into internal non-volatile device memory (e.g. CPLDs). Some device programmers serve a double purpose for programming as well as debugging the device. In the case of FPGAs, volatile memory devices can also be programmed via the JTAG port, normally during development work. In addition, internal monitoring capabilities (temperature, voltage and current) may be accessible via the JTAG port. JTAG programmers are also used to write software and data into
flash memory Flash memory is an electronic non-volatile computer memory storage medium that can be electrically erased and reprogrammed. The two main types of flash memory, NOR flash and NAND flash, are named for the NOR and NAND logic gates. Both us ...
. This is usually done using the same data bus access the CPU would use, and is sometimes handled by the CPU. In other cases the memory chips themselves have JTAG interfaces. Some modern debug architectures provide internal and external bus master access without needing to halt and take over a CPU. In the worst case, it is usually possible to drive external bus signals using the boundary scan facility. As a practical matter, when developing an embedded system, emulating the instruction store is the fastest way to implement the "debug cycle" (edit, compile, download, test, and debug). This is because the in-circuit emulator simulating an instruction store can be updated very quickly from the development host via, say, USB. Using a serial UART port and bootloader to upload firmware to Flash makes this debug cycle quite slow and possibly expensive in terms of tools; installing firmware into Flash (or SRAM instead of Flash) via JTAG is an intermediate solution between these extremes.


Boundary scan testing

JTAG
boundary scan Boundary scan is a method for testing interconnects (wire lines) on printed circuit boards or sub-blocks inside an integrated circuit. Boundary scan is also widely used as a debugging method to watch integrated circuit pin states, measure voltage ...
technology provides access to many logic signals of a complex integrated circuit, including the device pins. The signals are represented in the boundary scan register (BSR) accessible via the TAP. This permits testing as well as controlling the states of the signals for testing and debugging. Therefore, both software and hardware (manufacturing) faults may be located and an operating device may be monitored. When combined with built-in self-test ( BIST), the JTAG scan chain enables a low overhead, embedded solution to test an IC for certain static faults (shorts, opens, and logic errors). The scan chain mechanism does not generally help diagnose or test for timing, temperature or other dynamic operational errors that may occur.
Test case In software engineering, a test case is a specification of the inputs, execution conditions, testing procedure, and expected results that define a single test to be executed to achieve a particular software testing objective, such as to exercise ...
s are often provided in standardized formats such as SVF, or its binary sibling XSVF, and used in production tests. The ability to perform such testing on finished boards is an essential part of Design For Test in today's products, increasing the number of faults that can be found before products ship to customers.


Electrical characteristics

A JTAG interface is a special interface added to a chip. Depending on the version of JTAG, two, four, or five pins are added. The four and five pin interfaces are designed so that multiple chips on a board can have their JTAG lines daisy-chained together if specific conditions are met. The two pin interface is designed so that multiple chips can be connected in a
star topology A star network is an implementation of a spoke–hub distribution paradigm in computer networks. In a star network, every host is connected to a central hub. In its simplest form, one central hub acts as a conduit to transmit messages. Th ...
. In either case a test probe need only connect to a single "JTAG port" to have access to all chips on a circuit board.


Daisy-chained JTAG (IEEE 1149.1)

The connector pins are: #TDI (Test Data In) #TDO (Test Data Out) #TCK (Test Clock) #TMS (Test Mode Select) #TRST (Test Reset) optional. The TRST pin is an optional active-low reset to the test logic, usually asynchronous, but sometimes synchronous, depending on the chip. If the pin is not available, the test logic can be reset by switching to the reset state synchronously, using TCK and TMS. Note that resetting test logic doesn't necessarily imply resetting anything else. There are generally some processor-specific JTAG operations which can reset all or part of the chip being debugged. Since only one data line is available, the protocol is serial. The clock input is at the TCK pin. One bit of data is transferred in from TDI, and out to TDO per TCK rising clock edge. Different instructions can be loaded. Instructions for typical ICs might read the chip ID, sample input pins, drive (or float) output pins, manipulate chip functions, or bypass (pipe TDI to TDO to logically shorten chains of multiple chips). As with any clocked signal, data presented to TDI must be valid for some chip-specific ''Setup'' time before and ''Hold'' time after the relevant (here, rising) clock edge. TDO data is valid for some chip-specific time after the falling edge of TCK. The maximum operating frequency of TCK varies depending on all chips in the chain (the lowest speed must be used), but it is typically 10-100 MHz (100-10 ns per bit). Also TCK frequencies depend on board layout and JTAG adapter capabilities and state. One chip might have a 40 MHz JTAG clock, but only if it is using a 200 MHz clock for non-JTAG operations; and it might need to use a much slower clock when it is in a low power mode. Accordingly, some JTAG adapters have ''adaptive clocking'' using an RTCK (Return TCK) signal. Faster TCK frequencies are most useful when JTAG is used to transfer much data, such as when storing a program executable into
flash memory Flash memory is an electronic non-volatile computer memory storage medium that can be electrically erased and reprogrammed. The two main types of flash memory, NOR flash and NAND flash, are named for the NOR and NAND logic gates. Both us ...
. Clocking changes on TMS steps through a standardized JTAG
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. The JTAG state machine can reset, access an instruction register, or access data selected by the instruction register. JTAG platforms often add signals to the handful defined by the IEEE 1149.1 specification. A System Reset (SRST) signal is quite common, letting debuggers reset the whole system, not just the parts with JTAG support. Sometimes there are event signals used to trigger activity by the host or by the device being monitored through JTAG; or, perhaps, additional control lines. Even though few consumer products provide an explicit JTAG port connector, the connections are often available on the
printed circuit board A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in Electrical engineering, electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a L ...
as a remnant from development prototyping and/or production. When exploited, these connections often provide the most viable means for
reverse engineering Reverse engineering (also known as backwards engineering or back engineering) is a process or method through which one attempts to understand through deductive reasoning how a previously made device, process, system, or piece of software accompli ...
.


Reduced pin count JTAG (IEEE 1149.7)

Reduced pin count JTAG uses only two wires, a clock wire and a data wire. This is defined as part of the IEEE 1149.7 standard. The connector pins are: #TMSC (Test Serial Data) #TCKC (Test Clock) It is called cJTAG for compact JTAG. The two wire interface reduced pressure on the number of pins, and devices can be connected in a
star topology A star network is an implementation of a spoke–hub distribution paradigm in computer networks. In a star network, every host is connected to a central hub. In its simplest form, one central hub acts as a conduit to transmit messages. Th ...
. The star topology enables some parts of the system to be powered down, while others can still be accessed over JTAG; a daisy chain requires all JTAG interfaces to be powered. Other two-wire interfaces exist, such as
Serial Wire Debug JTAG (named after the Joint Test Action Group which codified it) is an industry standard for verifying designs and testing printed circuit boards after manufacture. JTAG implements standards for on-chip instrumentation in electronic design autom ...
.


Communications model

In JTAG, devices expose one or more ''test access ports'' (TAPs). The picture above shows three TAPs, which might be individual chips or might be modules inside one chip. A daisy chain of TAPs is called a ''scan chain'', or (loosely) a target. Scan chains can be arbitrarily long, but in practice twenty TAPs is unusually long. To use JTAG, a host is connected to the target's JTAG signals (TMS, TCK, TDI, TDO, etc.) through some kind of ''JTAG adapter'', which may need to handle issues like level shifting and galvanic isolation. The adapter connects to the host using some interface such as USB, PCI, Ethernet, and so forth.


Primitives

The host communicates with the TAPs by manipulating TMS and TDI in conjunction with TCK, and reading results through TDO (which is the only standard host-side input). TMS/TDI/TCK output transitions create the basic JTAG communication primitive on which higher layer protocols build: * ''State switching'' ... All TAPs are in the same state, and that state changes on TCK transitions. This JTAG state machine is part of the JTAG spec, and includes sixteen states. There are six "stable states" where keeping TMS stable prevents the state from changing. In all other states, TCK always changes that state. In addition, asserting TRST forces entry to one of those stable states (Test_Logic_Reset), in a slightly quicker way than the alternative of holding TMS high and cycling TCK five times. * ''Shifting'' ... Most parts of the JTAG state machine support two stable states used to transfer data. Each TAP has an ''instruction register'' (IR) and a ''data register'' (DR). The size of those registers varies between TAPs, and those registers are combined through TDI and TDO to form a large shift register. (The size of the DR is a function of the value in that TAP's current IR, and possibly of the value specified by a SCAN_N instruction.) There are three operations defined on that shift register: ** ''Capturing'' a temporary value *** Entry to the ''Shift_IR'' stable state goes via the Capture_IR state, loading the shift register with a partially fixed value (not the current instruction) *** Entry to the ''Shift_DR'' stable state goes via the Capture_DR state, loading the value of the Data Register specified by the TAP's current IR. ** ''Shifting'' that value bit-by-bit, in either the Shift_IR or Shift_DR stable state; TCK transitions shift the shift register one bit, from TDI towards TDO, exactly like a SPI mode 1 data transfer through a daisy chain of devices (with TMS=0 acting like the chip select signal, TDI as MOSI, etc.). ** ''Updating'' IR or DR from the temporary value shifted in, on transition through the Update_IR or Update_DR state. Note that it is not possible to read (capture) a register without writing (updating) it, and vice versa. A common idiom adds flag bits to say whether the update should have side effects, or whether the hardware is ready to execute such side effects. * ''Running'' ... One stable state is called Run_Test/Idle. The distinction is TAP-specific. Clocking TCK in the Idle state has no particular side effects, but clocking it in the Run_Test state may change system state. For example, some
ARM9 ARM9 is a group of 32-bit RISC ARM processor cores licensed by ARM Holdings for microcontroller use. The ARM9 core family consists of ARM9TDMI, ARM940T, ARM9E-S, ARM966E-S, ARM920T, ARM922T, ARM946E-S, ARM9EJ-S, ARM926EJ-S, ARM968E-S, ARM996 ...
cores support a debugging mode where TCK cycles in the Run_Test state drive the instruction pipeline. So at a basic level, using JTAG involves reading and writing instructions and their associated data registers; and sometimes involves running a number of test cycles. Behind those registers is hardware that is not specified by JTAG, and which has its own states that is affected by JTAG activities. Most JTAG hosts use the shortest path between two states, perhaps constrained by quirks of the adapter. (For example, one adapter only handles paths whose lengths are multiples of seven bits.) Some layers built on top of JTAG monitor the state transitions, and use uncommon paths to trigger higher level operations. Some ARM cores use such sequences to enter and exit a two-wire (non-JTAG) SWD mode. A Zero Bit Scan (ZBS) sequence is used in IEEE 1149.7Texas Instruments is one adopter behind this standard, and has a
IEEE 1149.7 wiki page
with more information.
to access advanced functionality such as switching TAPs into and out of scan chains, power management, and a different two-wire mode.


JTAG IEEE Std 1149.1 (boundary scan) instructions

Instruction register sizes tend to be small, perhaps four or seven bits wide. Except for BYPASS and EXTEST, all instruction opcodes are defined by the TAP implementor, as are their associated data registers; undefined instruction codes should not be used. Two key instructions are: * The BYPASS instruction, an opcode of all ones regardless of the TAP's instruction register size, must be supported by all TAPs. The instruction selects a single bit data register (also called BYPASS). The instruction allows this device to be bypassed (do nothing) while other devices in the scan path are exercised. * The optional IDCODE instruction, with an implementor-defined opcode. IDCODE is associated with a 32-bit register (IDCODE). Its data uses a standardized format that includes a manufacturer code (derived from the
JEDEC The JEDEC Solid State Technology Association is an independent semiconductor engineering trade organization and standardization body headquartered in Arlington County, Virginia, United States. JEDEC has over 300 members, including some of the w ...
''Standard Manufacturer's Identification Code'' standard, JEP-106), a part number assigned by the manufacturer, and a part version code. IDCODE is widely, but not universally, supported. On exit from the RESET state, the instruction register is preloaded with either BYPASS or IDCODE. This allows JTAG hosts to identify the size and, at least partially, contents of the scan chain to which they are connected. (They can enter the RESET state then scan the Data Register until they read back the data they wrote. A BYPASS register has only a zero bit; while an IDCODE register is 32-bits and starts with a one. So the bits not written by the host can easily be mapped to TAPs.) Such identification is often used to sanity check manual configuration, since IDCODE is often unspecific. It could for example identify an ARM Cortex-M3 based microcontroller, without specifying the microcontroller vendor or model; or a particular FPGA, but not how it has been programmed. A common idiom involves shifting BYPASS into the instruction registers of all TAPs except one, which receives some other instruction. That way all TAPs except one expose a single bit data register, and values can be selectively shifted into or out of that one TAP's data register without affecting any other TAP. The IEEE 1149.1 (JTAG) standard describes a number of instructions to support boundary scan applications. Some of these instructions are "mandatory", but TAPs used for debug instead of boundary scan testing sometimes provide minimal or no support for these instructions. Those "mandatory" instructions operate on the Boundary Scan Register (BSR) defined in the BSDL file, and include: * EXTEST for external testing, such as using pins to probe board-level behaviors * PRELOAD loading pin output values before EXTEST (sometimes combined with SAMPLE) * SAMPLE reading pin values into the boundary scan register IEEE-defined "Optional" instructions include: * CLAMP a variant of BYPASS which drives the output pins using the PRELOADed values * HIGHZ deactivates the outputs of all pins * INTEST for internal testing, such as using pins to probe on-chip behaviors * RUNBIST places the chip in a self-test mode * USERCODE returns a user-defined code, for example to identify which FPGA image is active Devices may define more instructions, and those definitions should be part of a BSDL file provided by the manufacturer. They are often only marked as PRIVATE.


Boundary scan register

Devices communicate to the world via a set of input and output pins. By themselves, these pins provide limited visibility into the workings of the device. However, devices that support
boundary scan Boundary scan is a method for testing interconnects (wire lines) on printed circuit boards or sub-blocks inside an integrated circuit. Boundary scan is also widely used as a debugging method to watch integrated circuit pin states, measure voltage ...
contain a shift-register cell for each signal pin of the device. These registers are connected in a dedicated path around the device's boundary (hence the name). The path creates a virtual access capability that circumvents the normal inputs and outputs, providing direct control of the device and detailed visibility for signals. The contents of the boundary scan register, including signal I/O capabilities, are usually described by the manufacturer using a part-specific BSDL file. These are used with design 'netlists' from CAD/EDA systems to develop tests used in board manufacturing. Commercial test systems often cost several thousand dollars for a complete system, and include diagnostic options to pinpoint faults such as open circuits and shorts. They may also offer schematic or layout viewers to depict the fault in a graphical manner. To enable boundary scanning, IC vendors add logic to each of their devices, including scan cells for each of the signal pins. These cells are then connected together to form the boundary scan shift register (BSR), which is connected to a TAP controller. These designs are parts of most Verilog or VHDL libraries. Overhead for this additional logic is minimal, and generally is well worth the price to enable efficient testing at the board level.


Example: ARM11 debug TAP

An example helps show the operation of JTAG in real systems. The example here is the debug TAP of an ARM11 processor, the ARM1136ARM1136JF-S and ARM1136J-S Technical Reference Manual
revision r1p5, ARM DDI 0211K. Chapter 14 presents the Debug TAP. Other ARM11 cores present the same model through their Debug TAPs.
core. The processor itself has extensive JTAG capability, similar to what is found in other CPU cores, and it is integrated into chips with even more extensive capabilities accessed through JTAG. This is a non-trivial example, which is representative of a significant cross section of JTAG-enabled systems. In addition, it shows how control mechanisms are built using JTAG's register read/write primitives, and how those combine to facilitate testing and debugging complex logic elements;
CPU A central processing unit (CPU), also called a central processor, main processor or just processor, is the electronic circuitry that executes instructions comprising a computer program. The CPU performs basic arithmetic, logic, controlling, and ...
s are common, but
FPGA 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 de ...
s and
ASIC An application-specific integrated circuit (ASIC ) is an integrated circuit (IC) chip customized for a particular use, rather than intended for general-purpose use, such as a chip designed to run in a digital voice recorder or a high-efficien ...
s include other complex elements which need to be debugged. Licensees of this core integrate it into chips, usually combining it with other TAPs as well as numerous peripherals and memory. One of those other TAPs handles boundary scan testing for the whole chip; it is not supported by the debug TAP. Examples of such chips include: * The OMAP2420, which includes a boundary scan TAP, the ARM1136 Debug TAP, an ETB11 trace buffer TAP, a C55x DSP, and a TAP for an ARM7 TDMI-based imaging engine, with the boundary scan TAP ("ICEpick-B") having the ability to splice TAPs into and out of the JTAG scan chain.Documentation for the OMAP2420 is not publicly available. However, a
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 globall ...
documen
The User's Guide to DBGJTAG
discussing a JTAG diagnostic tool presents this OMAP2420 scan chain example (and others).
* The
i.MX31 The i.MX range is a family of Freescale Semiconductor (now part of NXP) proprietary microcontrollers for multimedia applications based on the ARM architecture and focused on low-power consumption. The i.MX application processors are SoCs (System ...
processor, which is similar, although its "System JTAG" boundary scan TAP,See "i.MX35 (MCIMX35) Multimedia Applications Processor Reference Manual" from the Freescale web site. Chapter 44 presents its "Secure JTAG Controller" (SJC). which is very different from ICEpick, and it includes a TAP for its DMA engine instead of a DSP and imaging engine. Those processors are both intended for use in wireless handsets such as cell phones, which is part of the reason they include TAP controllers which modify the JTAG scan chain: Debugging low power operation requires accessing chips when they are largely powered off, and thus when not all TAPs are operational. That scan chain modification is one subject of a forthcoming IEEE 1149.7 standard.


JTAG facilities

This debug TAP exposes several standard instructions, and a few specifically designed for hardware-assisted
debugging In computer programming and software development, debugging is the process of finding and resolving '' bugs'' (defects or problems that prevent correct operation) within computer programs, software, or systems. Debugging tactics can involve in ...
, where a software tool (the "debugger") uses JTAG to communicate with a system being debugged: * BYPASS and IDCODE, standard instructions as described above * EXTEST, INTEST, standard instructions, but operating on the core instead of an external boundary scan chain. EXTEST is nominally for writing data to the core, INTEST is nominally for reading it; but two scan chains are exceptions to that rule. * SCAN_N ARM instruction to select the numbered scan chain used with EXTEST or INTEST. There are six scan chains: ** 0 - Device ID Register, 40 bits of read-only identification data ** 1 - Debug Status and Control Register (DSCR), 32 bits used to operate the debug facilities ** 4 - Instruction Transfer Register (ITR), 33 bits (32 instruction plus one status bit) used to execute processor instructions while in a special "Debug Mode" (see below) ** 5 - Debug Communications Channel (DCC), 34 bits (one long data word plus two status bits) used for bidirectional data transfer to the core. This is used both in debug mode, and possibly at runtime when talking to debugger-aware software. ** 6 - Embedded Trace Module (ETM), 40 bits (7 bit address, one 32-bit long data word, and a R/W bit) used to control the operation of a passive instruction and data trace mechanism. This feeds either an on-chip Embedded Trace Buffer (ETB), or an external high speed trace data collection pod. Tracing supports passive debugging (examining execution history) and profiling for performance tuning. ** 7 - debug module, 40 bits (7 bit address, one 32-bit long data word, and a R/W bit) used to access hardware breakpoints, watchpoints, and more. These can be written while the processor is running; it does not need to be in Debug Mode. * HALT and RESTART, ARM11-specific instructions to halt and restart the CPU. Halting it puts the core into the "Debug Mode", where the ITR can be used to execute instructions, including using the DCC to transfer data between the debug (JTAG) host and the CPU. * ITRSEL, ARM11-specific instruction to accelerate some operations with ITR. That model resembles the model used in other ARM cores. Non-ARM systems generally have similar capabilities, perhaps implemented using the
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 ...
protocols on top of JTAG, or other vendor-specific schemes. Older ARM7 and
ARM9 ARM9 is a group of 32-bit RISC ARM processor cores licensed by ARM Holdings for microcontroller use. The ARM9 core family consists of ARM9TDMI, ARM940T, ARM9E-S, ARM966E-S, ARM920T, ARM922T, ARM946E-S, ARM9EJ-S, ARM926EJ-S, ARM968E-S, ARM996 ...
cores include an ''EmbeddedICE'' moduleARM9EJ-S Technical Reference Manual
revision r1p2. Appendix B "Debug in Depth" presents the EmbeddedICE-RT module, as seen in the popular ARM926ejs core.
which combines most of those facilities, but has an awkward mechanism for instruction execution: the debugger must drive the CPU instruction pipeline, clock by clock, and directly access the data buses to read and write data to the CPU. The ARM11 uses the same model for trace support (ETM, ETB) as those older cores. Newer ARM Cortex cores closely resemble this debug model, but build on a ''Debug Access Port'' (DAP) instead of direct CPU access. In this architecture (named ''CoreSight Technology''), core and JTAG module is completely independent. They are also decoupled from JTAG so they can be hosted over ARM's two-wire SWD interface (see below) instead of just the six-wire JTAG interface. (ARM takes the four standard JTAG signals and adds the optional TRST, plus the RTCK signal used for adaptive clocking.) The CoreSight JTAG-DP is asynchronous to the core clocks, and does not implement RTCK. Also, the newer cores have updated trace support.


Halt mode debugging

One basic way to debug software is to present a single threaded model, where the debugger periodically stops execution of the program and examines its state as exposed by register contents and memory (including peripheral controller registers). When interesting program events approach, a person may want to single step instructions (or lines of source code) to watch how a particular misbehavior happens. So for example a JTAG host might HALT the core, entering Debug Mode, and then read CPU registers using ITR and DCC. After saving processor state, it could write those registers with whatever values it needs, then execute arbitrary algorithms on the CPU, accessing memory and peripherals to help characterize the system state. After the debugger performs those operations, the state may be restored and execution continued using the RESTART instruction. Debug mode is also entered asynchronously by the debug module triggering a watchpoint or breakpoint, or by issuing a BKPT (breakpoint) instruction from the software being debugged. When it is not being used for instruction tracing, the ETM can also trigger entry to debug mode; it supports complex triggers sensitive to state and history, as well as the simple address comparisons exposed by the debug module. Asynchronous transitions to debug mode are detected by polling the DSCR register. This is how single stepping is implemented: HALT the core, set a temporary breakpoint at the next instruction or next high-level statement, RESTART, poll DSCR until you detect asynchronous entry to debug state, remove that temporary breakpoint, repeat.


Monitor mode debugging

Modern software is often too complex to work well with such a single threaded model. For example, a processor used to control a motor (perhaps one driving a saw blade) may not be able to safely enter halt mode; it may need to continue handling interrupts to ensure physical safety of people and/or machinery. Issuing a HALT instruction using JTAG might be dangerous. ARM processors support an alternative debug mode, called ''Monitor Mode'', to work with such situations. (This is distinct from the ''Secure Monitor Mode'' implemented as part of security extensions on newer ARM cores; it manages debug operations, not security transitions.) In those cases, breakpoints and watchpoints trigger a special kind of hardware exception, transferring control to a "debug monitor" running as part of the system software. This monitor communicates with the debugger using the DCC, and could arrange for example to single step only a single process while other processes (and interrupt handlers) continue running.


Common extensions

Microprocessor vendors have often defined their own core-specific debugging extensions. Such vendors include Infineon, MIPS with EJTAG, and more. If the vendor does not adopt a standard (such as the ones used by ARM processors; or Nexus), they need to define their own solution. If they support boundary scan, they generally build debugging over JTAG. Freescale has COP and OnCE (On-Chip Emulation). OnCE includes a JTAG command which makes a TAP enter a special mode where the IR holds OnCE debugging commandsAN1817/D, "MMC20xx M•CORE OnCE Port Communication and Control Sequences"; Freescale Semiconductor, Inc.; 2004. Not all processors support the same OnCE module. for operations such as single stepping, breakpointing, and accessing registers or memory. It also defines EOnCE (Enhanced On-Chip Emulation)AN2073 "Differences Between the EOnCE and OnCE Ports"; Freescale Semiconductor, Inc.; 2005. presented as addressing real time concerns. ARM has an extensive processor core debug architecture (CoreSight) that started with EmbeddedICE (a debug facility available on most ARM cores), and now includes many additional components such as an ETM (Embedded Trace Macrocell), with a high speed trace port, supporting multi-core and multithread tracing. Note that tracing is non-invasive; systems do not need to stop operating to be traced. (However, trace data is too voluminous to use JTAG as more than a trace control channel.)
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 ...
defines a processor debug infrastructure which is largely vendor-independent. One of its hardware interfaces is JTAG. It also defines a high speed auxiliary port interface, used for tracing and more. Nexus is used with some newer platforms, such as the
Atmel Atmel Corporation was a creator and manufacturer of semiconductors before being subsumed by Microchip Technology in 2016. Atmel was founded in 1984. The company focused on embedded systems built around microcontrollers. Its products included micr ...
AVR32 and Freescale MPC5500 series processors.


Uses

* Except for some of the very lowest end systems, essentially all embedded systems platforms have a JTAG port to support in-circuit debugging and firmware programming as well as for boundary scan testing: **
ARM architecture 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 ...
processors come with JTAG support, sometimes supporting a two-wire "SWD" variant or high speed tracing of traffic on instruction or data busses. ** Modern 8-bit and 16-bit
microcontroller A microcontroller (MCU for ''microcontroller unit'', often also MC, UC, or μC) is a small computer on a single VLSI integrated circuit (IC) chip. A microcontroller contains one or more CPUs (processor cores) along with memory and programmable i ...
chips, such as
Atmel AVR AVR is a family of microcontrollers developed since 1996 by Atmel, acquired by Microchip Technology in 2016. These are modified Harvard architecture 8-bit Reduced instruction set computer, RISC single-chip microcontrollers. AVR was one of the f ...
and
TI MSP430 The MSP430 is a mixed-signal integrated circuit, mixed-signal microcontroller family from Texas Instruments, first introduced on 14 February 1992. Built around a CPU, the MSP430 is designed for low cost and, specifically, low power consumptio ...
chips, support JTAG programming and debugging. However, the very smallest chips may not have enough pins to spare (and thus tend to rely on proprietary single-wire programming interfaces); if the pin count is over 32, there is probably a JTAG option. ** Almost all
FPGA 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 de ...
s and CPLDs used today can be programmed via a JTAG port. A
Standard Test and Programming Language JAM / STAPL ("Standard Test and Programming Language") is an Altera-developed standard for JTAG in-circuit programming of programmable logic device A programmable logic device (PLD) is an electronic component used to build reconfigurable di ...
is defined by JEDEC standard JESD-71 for JTAG programming of PLD's. ** Many MIPS and
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 ...
processors have JTAG support ** Intel Core, Xeon, Atom, and Quark processors all support JTAG probe mode with Intel specific extensions of JTAG using the so-called 60-pin eXtended Debug Port DP Additionally the Quark processor supports more traditional 10-pin connectors. ** Consumer products such as networking appliances and
satellite television Satellite television is a service that delivers television programming to viewers by relaying it from a communications satellite orbiting the Earth directly to the viewer's location. The signals are received via an outdoor parabolic antenna comm ...
integrated receiver/decoders often use microprocessors which support JTAG, providing an alternate means to reload
firmware In computing, firmware is a specific class of computer software that provides the low-level control for a device's specific hardware. Firmware, such as the BIOS of a personal computer, may contain basic functions of a device, and may provide h ...
if the existing bootloader has been corrupted in some manner. *The
PCI PCI may refer to: Business and economics * Payment card industry, businesses associated with debit, credit, and other payment cards ** Payment Card Industry Data Security Standard, a set of security requirements for credit card processors * Pro ...
bus connector standard contains optional JTAG signals on pins 1–5;
PCI Express PCI Express (Peripheral Component Interconnect Express), officially abbreviated as PCIe or PCI-e, is a high-speed serial computer expansion bus standard, designed to replace the older PCI, PCI-X and AGP bus standards. It is the common ...
contains JTAG signals on pins 5–9. A special JTAG card can be used to reflash a corrupt
BIOS In computing, BIOS (, ; Basic Input/Output System, also known as the System BIOS, ROM BIOS, BIOS ROM or PC BIOS) is firmware used to provide runtime services for operating systems and programs and to perform hardware initialization during the ...
. * Boundary scan testing and in-system (device) programming applications are sometimes programmed using the Serial Vector Format, a textual representation of JTAG operations using a simple syntax. Other programming formats include 'JAM' and STAPL plus more recently the IEEE Std. 1532 defined format 'ISC' (short for In-System Configuration). ISC format is used in conjunction with enhanced BSDL models for programmable logic devices (i.e. FPGAs and CPLDs) that include addition ISC_ instructions in addition to the basic bare minimum IEEE 1149.1 instructions. FPGA programming tools from
Xilinx Xilinx, Inc. ( ) was an American technology and semiconductor company that primarily supplied programmable logic devices. The company was known for inventing the first commercially viable field-programmable gate array (FPGA) and creating the fi ...
, Altera, Lattice, Cypress, Actel, etc. typically are able to export such files. * As mentioned, many boards include JTAG connectors, or just pads, to support manufacturing operations, where boundary scan testing helps verify board quality (identifying bad solder joints, etc.) and to initialize
flash memory Flash memory is an electronic non-volatile computer memory storage medium that can be electrically erased and reprogrammed. The two main types of flash memory, NOR flash and NAND flash, are named for the NOR and NAND logic gates. Both us ...
or FPGAs. * JTAG can also support field updates and troubleshooting.


Client support

The target's JTAG interface is accessed using some JTAG-enabled application and some JTAG adapter hardware. There is a wide range of such hardware, optimized for purposes such as production testing, debugging high speed systems, low cost microcontroller development, and so on. In the same way, the software used to drive such hardware can be quite varied. Software developers mostly use JTAG for debugging and updating firmware.


Connectors

There are no official standards for JTAG adapter physical connectors. Development boards usually include a header to support preferred development tools; in some cases they include multiple such headers, because they need to support multiple such tools. For example, a microcontroller, FPGA, and ARM application processor rarely share tools, so a development board using all of those components might have three or more headers. Production boards may omit the headers, or when space is limited may provide JTAG signal access using test points. Some common pinouts for pin headers are: * ARM 2×10 pin (or sometimes the older 2×7), used by almost all ARM based systems * MIPS EJTAG (2×7 pin) used for MIPS based systems * 2×5 pin Altera ByteBlaster-compatible JTAG extended by many vendors * 2×5 pin AVR extends Altera JTAG with SRST (and in some cases TRST and an event output) * 2×7 pin
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 globall ...
used with DSPs and ARM-based products such as
OMAP The OMAP (Open Multimedia Applications Platform) family, developed by Texas Instruments, was a series of image/video processors. They are proprietary system on chips (SoCs) for portable and mobile multimedia applications. OMAP devices generally i ...
* 8 pin (single row) generic PLD JTAG compatible with many Lattice ispDOWNLOAD cables * MIPI10-/20-connectors (1.27 mm 050") for JTAG, cJTAG and SWD Those connectors tend to include more than just the four standardized signals (TMS, TCK, TDI, TDO). Usually reset signals are provided, one or both of TRST (TAP reset) and SRST (system reset). The connector usually provides the board-under-test's logic supply voltage so that the JTAG adapters use the appropriate logic levels. The board voltage may also serve as a "board present" debugger input. Other event input or output signals may be provided, or general purpose I/O (GPIO) lines, to support more complex debugging architectures. Higher end products frequently use dense connectors (frequently 38-pin
MICTOR MICTOR is an acronym for Matched Impedance ConnecTOR, a product line of vertical board to board connectors. Produced by TE Connectivity, they are attached to printed circuit boards using surface-mount technology. They can be used for probing board ...
connectors) to support high-speed
tracing Tracing may refer to: Computer graphics * Image tracing, digital image processing to convert raster graphics into vector graphics * Path tracing, a method of rendering images of three-dimensional scenes such that the global illumination is faithf ...
in conjunction with JTAG operations. A recent trend is to have development boards integrate a USB interface to JTAG, where a second channel is used for a serial port. (Smaller boards can also be powered through USB. Since modern PCs tend to omit serial ports, such integrated debug links can significantly reduce clutter for developers.) Production boards often rely on bed-of-nails connections to test points for testing and programming.


Adapter hardware

Adapter hardware varies widely. When not integrated into a development board, it involves a short cable to attach to a JTAG connector on the target board; a connection to the debugging host, such as a USB, PCI, or Ethernet link; and enough electronics to adapt the two communications domains (and sometimes provide galvanic isolation). A separate power supply may be needed. There are both "dumb" adapters, where the host decides and performs all JTAG operations; and "smart" ones, where some of that work is performed inside the adapter, often driven by a microcontroller. The "smart" adapters eliminate link latencies for operation sequences that may involve polling for status changes between steps, and may accordingly offer faster throughput. , adapters with a
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 ...
link from the host are the most common approach. Higher end products often support
Ethernet Ethernet () is a family of wired computer networking technologies commonly used in local area networks (LAN), metropolitan area networks (MAN) and wide area networks (WAN). It was commercially introduced in 1980 and first standardized in 198 ...
, with the advantage that the debug host can be quite remote. Adapters which support high speed trace ports generally include several megabytes of trace buffer and provide high speed links (USB or Ethernet) to get that data to the host.
Parallel port In computing, a parallel port is a type of interface found on early computers (personal and otherwise) for connecting peripherals. The name refers to the way the data is sent; parallel ports send multiple bits of data at once ( parallel ...
adapters are simple and inexpensive, but they are relatively slow because they use the host CPU to change each bit (" bit banging"). They have declined in usefulness because most computers in recent years don't have a parallel port. Driver support is also a problem, because pin usage by adapters varied widely. Since the parallel port is based on 5V logic level, most adapters lacked voltage translation support for 3.3V or 1.8V target voltages. RS-232 serial port adapters also exist, and are similarly declining in usefulness. They generally involve either slower bit banging than a parallel port, or a microcontroller translating some command protocol to JTAG operations. Such serial adapters are also not fast, but their command protocols could generally be reused on top of higher speed links. With all JTAG adapters, software support is a basic concern. Many vendors do not publish the protocols used by their JTAG adapter hardware, limiting their customers to the tool chains supported by those vendors. This is a particular issue for "smart" adapters, some of which embed significant amounts of knowledge about how to interact with specific CPUs.


Software development

Most development environments for embedded software include JTAG support. There are, broadly speaking, three sources of such software: * ''Chip vendors'' may provide the tools, usually requiring a JTAG adapter they supply. Examples include FPGA vendors such as
Xilinx Xilinx, Inc. ( ) was an American technology and semiconductor company that primarily supplied programmable logic devices. The company was known for inventing the first commercially viable field-programmable gate array (FPGA) and creating the fi ...
and Altera,
Atmel Atmel Corporation was a creator and manufacturer of semiconductors before being subsumed by Microchip Technology in 2016. Atmel was founded in 1984. The company focused on embedded systems built around microcontrollers. Its products included micr ...
for its AVR8 and AVR32 product lines, 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 globall ...
for most of its DSP and micro products. Such tools tend to be highly featured, and may be the only real option for highly specialized chips like FPGAs and DSPs. Lower end software tools may be provided free of charge. The JTAG adapters themselves are not free, although sometimes they are bundled with development boards. * ''Tool vendors'' may supply them, usually in conjunction with multiple chip vendors to provide cross-platform development support. ARM-based products have a particularly rich third party market, and a number of those vendors have expanded to non-ARM platforms like MIPS and
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 ...
. Tool vendors sometimes build products around free software like GCC and
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 ...
, with GUI support frequently using
Eclipse An eclipse is an astronomical event that occurs when an astronomical object or spacecraft is temporarily obscured, by passing into the shadow of another body or by having another body pass between it and the viewer. This alignment of three ce ...
. JTAG adapters are sometimes sold along with support bundles. * ''Open source'' tools exist. As noted above, GCC and GDB form the core of a good toolchain, and there are GUI environments to support them. All such software tends to include basic debugger support: stopping, halting, single stepping, breakpoints, data structure browsing, and so on. Commercial tools tend to provide tools like very accurate simulators and trace analysis, which are not currently available as open source.


Similar interface standards

Serial Wire Debug (SWD) is an alternative 2-pin electrical interface that uses the same protocol. It uses the existing GND connection. SWD uses an ARM CPU standard bi-directional wire protocol, defined in the ARM Debug Interface v5. This enables the debugger to become another
AMBA Amba or AMBA may refer to: Title * Amba Hor, alternative name for Abhor and Mehraela, Christian martyrs * Amba Sada, also known as Psote, Christian bishop and martyr in Upper Egypt Given name * Amba, the traditional first name given to the first ...
bus master for access to system memory and peripheral or debug registers. Data rate is up to . SWD also has built-in error detection. On JTAG devices with SWD capability, the TMS and TCK are used as SWDIO and SWCLK signals, providing for dual-mode programmers.


See also

*
Automated optical inspection Automated optical inspection (AOI) is an automated visual inspection Visual inspection is a common method of quality control, data acquisition, and data analysis. Visual Inspection, used in maintenance of facilities, mean inspection of equipment a ...
* Automated x-ray inspection * In-circuit test *
Acceptance testing In engineering and its various subdisciplines, acceptance testing is a test conducted to determine if the requirements of a specification or contract are met. It may involve chemical tests, physical tests, or performance tests. In systems en ...


References


External links


IEEE Standard for Reduced-Pin and Enhanced-Functionality Test Access Port and Boundary-Scan Architecture
The official IEEE 1149.7 Standard.
JTAG 101 - IEEE 1149.x and Software Debug
Intel whitepaper on JTAG usage in system software debug across a wide range of architectures.
IEEE Std 1149.1 (JTAG) Testability Primer
Includes a strong technical presentation about JTAG, with design-for-test chapters.
Boundary Scan / IEEE 1149 tutorial
including details of variants of the IEEE standard, BSDL, DFT, and other topics

Useful tutorials and information on JTAG technology.

Useful information on JTAG, timeline, architecture and more.

JTAG for product development, life cycle, testing, tools needed, and other topics. {{Microcontrollers IEEE standards Electronics manufacturing Embedded systems Hardware testing Printed circuit board manufacturing