Microprocessor
A microprocessor is a
The integration of a whole CPU onto a single or a few integrated circuits using
Before microprocessors, small computers had been built using racks of
Continued increases in microprocessor capacity have since rendered other forms of computers almost completely obsolete (see
A microprocessor is distinct from a microcontroller including a system on a chip.[3][4] A microprocessor is related but distinct from a digital signal processor, a specialized microprocessor chip, with its architecture optimized for the operational needs of digital signal processing.[5]: 104–107 [6]
Structure
The complexity of an integrated circuit is bounded by physical limitations on the number of
A minimal hypothetical microprocessor might include only an
As integrated circuit technology advanced, it was feasible to manufacture more and more complex processors on a single chip. The size of data objects became larger; allowing more transistors on a chip allowed
Occasionally, physical limitations of integrated circuits made such practices as a
The ability to put large numbers of transistors on one chip makes it feasible to integrate memory on the same die as the processor. This
The design of some processors has become complicated enough to be difficult to fully
Special-purpose designs
A microprocessor is a general purpose processing entity. Several specialized processing devices have followed:
- A digital signal processor (DSP) is specialized for signal processing.
- real-time renderingof images.
- Other specialized units exist for video processing and machine vision. (See: Hardware acceleration.)
- peripheral devices.
- Systems on chip(SoCs) often integrate one or more microprocessor and microcontroller cores with other components such as radio modems, and are used in smartphones and tablet computers.
Speed and power considerations
Microprocessors can be selected for differing applications based on their word size, which is a measure of their complexity. Longer word sizes allow each
Embedded applications
Thousands of items that were traditionally not computer-related include microprocessors. These include household
A microprocessor control program (embedded software) can be tailored to fit the needs of a product line, allowing upgrades in performance with minimal redesign of the product. Unique features can be implemented in product line's various models at negligible production cost.
Microprocessor control of a system can provide control strategies that would be impractical to implement using electromechanical controls or purpose-built electronic controls. For example, an internal combustion engine's control system can adjust ignition timing based on engine speed, load, temperature, and any observed tendency for knocking—allowing the engine to operate on a range of fuel grades.
History
The advent of low-cost
Following the development of
While there is disagreement over who invented the microprocessor,
Other
The first use of the term "microprocessor" is attributed to Viatron Computer Systems[18] describing the custom integrated circuit used in their System 21 small computer system announced in 1968.
Since the early 1970s, the increase in capacity of microprocessors has followed
First projects
These projects delivered a microprocessor at about the same time:
Four-Phase Systems AL1 (1969)
The
Garrett AiResearch CADC (1970)
In 1968,
This convergence of DSP and microcontroller architectures is known as a digital signal controller.[32]
Gilbert Hyatt (1970)
In 1990, American engineer Gilbert Hyatt was awarded U.S. Patent No. 4,942,516,
Texas Instruments TMX 1795 (1970–1971)
Texas Instruments developed in 1970–1971 a one-chip CPU replacement for the
Texas Instruments TMS 1802NC (1971)
The TMS1802NC, announced September 17, 1971, was the first microcontroller and at launch implemented a four-function calculator. The TMS1802NC, despite its designation, was not part of the
Pico/General Instrument (1971)
In 1971, Pico Electronics
Pico was a spinout by five GI design engineers whose vision was to create single-chip calculator ICs. They had significant previous design experience on multiple calculator chipsets with both GI and
Calculators were becoming the largest single market for semiconductors so Pico and GI went on to have significant success in this burgeoning market. GI continued to innovate in microprocessors and microcontrollers with products including the CP1600, IOB1680 and PIC1650.
Intel 4004 (1971)
The Intel 4004 is often (falsely) regarded as the first true microprocessor built on a single chip,[47][48] priced at US$60 (equivalent to $450 in 2023).[49] The first known advertisement for the 4004 is dated November 15, 1971, and appeared in Electronic News.[citation needed] The microprocessor was designed by a team consisting of Italian engineer Federico Faggin, American engineers Marcian Hoff and Stanley Mazor, and Japanese engineer Masatoshi Shima.[50]
The project that produced the 4004 originated in 1969, when
While the architecture and specifications of the MCS-4 came from the interaction of Hoff with
8-bit designs
This section and the sections below needs additional citations for verification. (June 2011) |
The
The 8008 was the precursor to the successful Intel 8080 (1974), which offered improved performance over the 8008 and required fewer support chips. Federico Faggin conceived and designed it using high voltage N channel MOS. The Zilog Z80 (1976) was also a Faggin design, using low voltage N channel with depletion load and derivative Intel 8-bit processors: all designed with the methodology Faggin created for the 4004. Motorola released the competing 6800 in August 1974, and the similar MOS Technology 6502 was released in 1975 (both designed largely by the same people). The 6502 family rivaled the Z80 in popularity during the 1980s.
A low overall cost, little packaging, simple
Motorola introduced the
Another early 8-bit microprocessor was the Signetics 2650, which enjoyed a brief surge of interest due to its innovative and powerful instruction set architecture.
A seminal microprocessor in the world of spaceflight was
The RCA 1802 had a
12-bit designs
The
16-bit designs
Part of a series on |
Microprocessor modes for the x86 architecture |
---|
|
First supported platform shown in parentheses |
The first multi-chip
Other early multi-chip 16-bit microprocessors include the
Next in list is the General Instrument CP1600, released in February 1975,[57] which was used mainly in the Intellivision console.
Another early single-chip 16-bit microprocessor was TI's
The
Intel "upsized" their 8080 design into the 16-bit
The 16-bit Intel x86 processors up to and including the 80386 do not include
32-bit designs
16-bit designs had only been on the market briefly when
The most significant of the 32-bit designs is the
The world's first single-chip fully 32-bit microprocessor, with 32-bit data paths, 32-bit buses, and 32-bit addresses, was the
The first commercial, single chip, fully 32-bit microprocessor available on the market was the HP FOCUS.
Intel's first 32-bit microprocessor was the
Motorola's success with the 68000 led to the
Other large companies designed the 68020 and follow-ons into embedded equipment. At one point, there were more 68020s in embedded equipment than there were
During this time (early to mid-1980s),
When National Semiconductor decided to leave the Unix market, the chip was redesigned into the Swordfish Embedded processor with a set of on-chip peripherals. The chip turned out to be too expensive for the
The
From 1993 to 2003, the 32-bit x86 architectures became increasingly dominant in desktop, laptop, and server markets, and these microprocessors became faster and more capable. Intel had licensed early versions of the architecture to other companies, but declined to license the Pentium, so AMD and Cyrix built later versions of the architecture based on their own designs. During this span, these processors increased in complexity (transistor count) and capability (instructions/second) by at least three orders of magnitude. Intel's Pentium line is probably the most famous and recognizable 32-bit processor model, at least with the public at broad.
64-bit designs in personal computers
While
With AMD's introduction of a 64-bit architecture backwards-compatible with x86,
The move to 64 bits by PowerPC had been intended since the architecture's design in the early 90s and was not a major cause of incompatibility. Existing integer registers are extended as are all related data pathways, but, as was the case with IA-32, both floating-point and vector units had been operating at or above 64 bits for several years. Unlike what happened when IA-32 was extended to x86-64, no new general purpose registers were added in 64-bit PowerPC, so any performance gained when using the 64-bit mode for applications making no use of the larger address space is minimal.[citation needed]
In 2011, ARM introduced the new 64-bit ARM architecture.
RISC
In the mid-1980s to early 1990s, a crop of new high-performance reduced instruction set computer (
The first commercial RISC microprocessor design was released in 1984, by
.In the late 1990s, only two 64-bit RISC architectures were still produced in volume for non-embedded applications: SPARC and Power ISA, but as ARM has become increasingly powerful, in the early 2010s, it became the third RISC architecture in the general computing segment.
SMP and multi-core design
SMP symmetric multiprocessing[66] is a configuration of two, four, or more CPU's (in pairs) that are typically used in servers, certain workstations and in desktop personal computers, since the 1990s. A multi-core processor is a single CPU that contains more than one microprocessor core.
This popular two-socket motherboard from
In 2001 IBM released the POWER4 CPU, it was a processor that was developed over five years of research, began in 1996 using a team of 250 researchers. The effort to accomplish the impossible was buttressed by development of and through—remote-collaboration and assigning younger engineers to work with more experienced engineers. The teams work achieved success with the new microprocessor, Power4. It is a two-in-one CPU that more than doubled performance at half the price of the competition, and a major advance in computing. The business magazine eWeek wrote: "The newly designed 1GHz Power4 represents a tremendous leap over its predecessor". An industry analyst, Brad Day of Giga Information Group said: "IBM is getting very aggressive, and this server is a game changer".
The Power4 won "Analysts’ Choice Award for Best Workstation/Server Processor of 2001", and it broke notable records, including winning a contest against the best players on the Jeopardy![67] U.S. television show.
Intel's
By 2012 dual and quad-core processors became widely used in PCs and laptops, newer processors - similar to the higher cost professional level Intel Xeon's - with additional cores that execute instructions in parallel so software performance typically increases, provided the software is designed to utilize advanced hardware. Operating systems provided support for multiple-cores and SMD CPU's, many software applications including large workload and resource intensive applications - such as 3-D games - are programmed to take advantage of multiple core and multi-CPU systems.
Apple, Intel, and AMD currently lead the market with multiple core desktop and workstation CPU's. Although they frequently leapfrog each other for the lead in the performance tier. Intel retains higher frequencies and thus has the fastest single core performance,[68] while AMD is often the leader in multi-threaded routines due to a more advanced ISA and the process node the CPU's are fabricated on.
Multiprocessing concepts for multi-core/multi-cpu configurations are related to Amdahl's law.
Market statistics
In 1997, about 55% of all
In 2002, less than 10% of all the CPUs sold in the world were 32-bit or more. Of all the 32-bit CPUs sold, about 2% are used in desktop or laptop personal computers. Most microprocessors are used in embedded control applications such as household appliances, automobiles, and computer peripherals. Taken as a whole, the average price for a microprocessor, microcontroller, or DSP is just over US$6 (equivalent to $10.16 in 2023).[70]
In 2003, about $44 billion (equivalent to about $73 billion in 2023) worth of microprocessors were manufactured and sold.[71] Although about half of that money was spent on CPUs used in desktop or laptop personal computers, those count for only about 2% of all CPUs sold.[70] The quality-adjusted price of laptop microprocessors improved −25% to −35% per year in 2004–2010, and the rate of improvement slowed to −15% to −25% per year in 2010–2013.[72]
About 10 billion CPUs were manufactured in 2008. Most new CPUs produced each year are embedded.[73]
See also
Notes
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microprocessor is not a stand-alone computer, since it lacks memory and input/output control. These are the missing parts that the microcontroller supplies, making it more nearly a complete computer on a chip.
- ISBN 978-0-333-36190-0.
A microprocessor itself is incapable of performing calculations and requires a support system in order to do so. The CPU support system includes a storage system in which not only the operating instructions but also the data (operands) are stored.
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… compared with -25% to -35% per year over 2004-2010, the annual decline plateaus around -15% to -25% over 2010-2013.
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References
- Ray, A. K.; Bhurchand, K.M. (2013). Advanced Microprocessors and Peripherals (3rd ed.). India: Tata McGraw-Hill. OCLC 878079623.
External links
- Patent problems
- Dirk Oppelt. "The CPU Collection". Retrieved 23 December 2009.
- Gennadiy Shvets. "CPU-World". Retrieved 23 December 2009.
- Jérôme Cremet. "The Gecko's CPU Library". Retrieved 23 December 2009.
- "How Microprocessors Work". April 2000. Retrieved 23 December 2009.
- William Blair. "IC Die Photography". Retrieved 23 December 2009.
- John Bayko (December 2003). "Great Microprocessors of the Past and Present". Archived from the original on 15 April 2013. Retrieved 23 December 2009.
- Wade Warner (22 December 2004). "Great moments in microprocessor history". IBM. Retrieved 7 March 2013.
- Arthur Daemmrich and Sharon Klotz (12 December 2019). "Gilbert Hyatt" (PDF). Smithsonian Institution.