Instructions per second: Difference between revisions
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'''Instructions per second (IPS)''' is a measure of a [[computer]]'s processor speed. Many reported IPS values have represented "peak" execution rates on artificial instruction sequences with few branches, whereas realistic workloads consist of a mix of instructions and applications, some of which take longer to execute than others. The performance of the [[memory hierarchy]] also greatly affects processor performance, an issue barely considered in MIPS calculations. Because of these problems, researchers created standardized tests such as [[SPECint]] to attempt to measure the real effective performance in commonly used applications, and raw IPS has fallen into disuse. |
'''Instructions per second (IPS)''' is a measure of a [[computer]]'s processor speed. Many reported IPS values have represented "peak" execution rates on artificial instruction sequences with few branches, whereas realistic workloads consist of a mix of instructions and applications, some of which take longer to execute than others. The performance of the [[memory hierarchy]] also greatly affects processor performance, an issue barely considered in MIPS calculations. Because of these problems, researchers created standardized tests such as [[SPECint]] to attempt to measure the real effective performance in commonly used applications, and raw IPS has fallen into disuse. |
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Revision as of 12:32, 21 May 2009
Instructions per second (IPS) is a measure of a computer's processor speed. Many reported IPS values have represented "peak" execution rates on artificial instruction sequences with few branches, whereas realistic workloads consist of a mix of instructions and applications, some of which take longer to execute than others. The performance of the memory hierarchy also greatly affects processor performance, an issue barely considered in MIPS calculations. Because of these problems, researchers created standardized tests such as SPECint to attempt to measure the real effective performance in commonly used applications, and raw IPS has fallen into disuse.
The term is commonly used in association with a numeric value such as thousand instructions per second (kIPS), million instructions per second (MIPS), or Million Operations per Second (MOPS).
Thousand instructions per second
Before standard benchmarks were available, average speed rating of computers was based on calculations for a mix of instructions with the results given in kilo Instructions Per Second (kIPS). The most famous was the Gibson Mix, produced by J Gibson of IBM for scientific applications. Other ratings were also produced for commercial applications. Computer Speeds From Instruction Mixes pre-1960 to 1971 has results for around 175 computers, providing scientific and commercial ratings. For IBM, the earliest Gibson Mix calculations shown are the 1954 IBM 650 at 0.06 kIPS and 1956 IBM 705 at 0.5 kIPS. The results are mainly for IBM and others known as the BUNCH - Burroughs, Univac, NCR, CDC and Honeywell.
A thousand instructions per second (kIPS) is rarely used, as most current microprocessors can execute several million instructions per second. The thousand means 1000 not 1024.
kIPS is also a common joke name for 16 bit microprocessor designs developed in undergraduate computer engineering courses that use the text Computer Organization and Design by Patterson and Hennessy (ISBN 1-55860-428-6), which explains computer architecture concepts in terms of the MIPS architecture. Such architectures tend to be scaled down versions of the MIPS R2000 architecture.
Million instructions per second
MIPS are not comparable between CPU architectures. This and other limitations of the unit lead many computer engineers to define MIPS as "Meaningless Indicator of Processor Speed."
In the late 1970s, minicomputer performance was compared using VAX MIPS, where computers were measured on a task and their performance rated against the VAX 11/780 that was marketed as a "1 MIPS" machine. (The measure was also known as the "VAX Unit of Performance" or VUP. Though orthographically incorrect, the "S" in "VUPs" is sometimes written in upper case.) This was chosen because the 11/780 was roughly equivalent in performance to an IBM System/370 model 158-3, which was commonly accepted in the computing industry as running at 1 MIPS.
Many of the minicomputer performance claims were based on the Fortran version of the Whetstone benchmark. This produces an artificial speed rating in Millions of Whetstone Instructions Per Second (MWIPS). Whetstone Benchmark History and Results provides some 700 results for minicomputers, mainframes, supercomputers and PCs. The VAX 11/780 with FPA (1977) is shown as having a rating of 1.02 MWIPS.
Effective MIPS speeds are highly dependent on the programming language used. The Whetstone Report has a table showing MWIPS speeds of PCs via early interpreters and compilers up to modern languages. The first compiler was for BASIC (1982) when a 4.8 MHz 8088/87 CPU obtained 0.01 MWIPS. Results on a 2.4 GHz Core 2 Duo (1 CPU 2007) vary from 9.7 MWIPS using BASIC Interpreter, 59 MWIPS via BASIC Compiler, 347 MWIPS using 1987 Fortran, 1534 MWIPS through HTML/Java to 2403 MWIPS using a modern C/C++ compiler. Source code, pre-compiled versions and results on PCs, for these and other benchmarks that measure MIPS, are available from Roy Longbottom’s PC Benchmark Collection (Free).
Most early 8-bit and 16-bit microprocessors had a performance measured in kIPS (thousand instructions per second), which equals 0.001 MIPS. The first general purpose microprocessor, the Intel i8080, ran at 640 kIPS. The Intel i8086 microprocessor, the first 16-bit microprocessor in the line of processors made by Intel and used in IBM PCs, ran at 800 kIPS. Early 32-bit PCs (386) ran at about 3 MIPS.
zMIPS refers to the MIPS measure used internally by IBM to rate its mainframe servers (zSeries, IBM System z9, and IBM System z10).
Timeline of instructions per second
 |
| Processor | IPS | IPS/MHz | Year | Source |
|---|---|---|---|---|
| Pencil and paper (for comparison) | 0.0119 IPS | n/a | 1892 | [1] |
| Intel 4004 | 92 kIPS at 740 kHz[2] | 0.124 | 1971 | |
| IBM System/370 model 158-3 | 1 MIPS | 1 | 1972 | |
| Intel 8080 | 640 kIPS at 2 MHz | 0.32 MIPS/MHz | 1974 | |
| VAX-11/780 | 500 kIPS | 0.5 | 1977 | |
| Motorola 68000 | 1 MIPS at 8 MHz | 0.125 MIPS/MHz | 1979 | |
| Intel 286 | 2.66 MIPS at 12 MHz | 0.22 MIPS/MHz | 1982 | [3] |
| Motorola 68020 | 4 MIPS at 20 MHz | 0.2 MIPS/MHz | 1984 | |
| ARM2 | 4 MIPS at 8 MHz | 0.5 MIPS/MHz | 1986 | |
| Motorola 68030 | 11 MIPS at 33 MHz | 0.33 MIPS/MHz | 1987 | |
| Intel 386DX | 8.5 MIPS at 25 MHz | 0.34 MIPS/MHz | 1988 | |
| Motorola 68040 | 44 MIPS at 40 MHz | 1.1 MIPS/MHz | 1990 | |
| Intel 486DX | 54 MIPS at 66 MHz | 0.818 MIPS/MHz | 1992 | |
| Motorola 68060 | 88 MIPS at 66 MHz | 1.33 MIPS/MHz | 1994 | |
| Intel Pentium Pro | 541 MIPS at 200 MHz | 2.705 MIPS/MHz | 1996 | [4] |
| ARM 7500FE | 35.9 MIPS at 40 MHz | 0.897 MIPS/MHz | 1996 | |
| PowerPC G3 | 525 MIPS at 233 MHz | 2.253 MIPS/MHz | 1997 | |
| Zilog eZ80 | 80 MIPS at 50 MHz | 1.6 MIPS/MHz | 1999 | [5] |
| Intel Pentium III | 1,354 MIPS at 500 MHz | 2.708 MIPS/MHz | 1999 | |
| Freescale MPC8272 | 760 MIPS at 400 MHz | 1.9 MIPS/MHz | 2000 | [6] Integrated Communications Processors |
| AMD Athlon | 3,561 MIPS at 1.2 GHz | 2.967 MIPS/MHz | 2000 | |
| AMD Athlon XP 2400+ | 5,935 MIPS at 2.0 GHz | 2.967 MIPS/MHz | 2002 | |
| Pentium 4 Extreme Edition | 9,726 MIPS at 3.2 GHz | 3.039 MIPS/MHz | 2003 | |
| ARM Cortex A8 | 2,000 MIPS at 1.0 GHz | 2.0 MIPS/MHz | 2005 | [7] |
| AMD Athlon FX-57 | 12,000 MIPS at 2.8 GHz | 4.285 MIPS/MHz | 2005 | |
| AMD Athlon 64 3800+ X2 (Dual Core) | 14,564 MIPS at 2.0 GHz | 7.282 MIPS/MHz | 2005 | [8] |
| Xbox360 IBM "Xenon" Triple Core | 19,200 MIPS at 3.2 GHz | 2.0 MIPS/MHz | 2005 | |
| PS3 Cell BE (PPE only) | 10,240 MIPS at 3.2 GHz | 3.2 MIPS/MHz | 2006 | |
| AMD Athlon FX-60 (Dual Core) | 18,938 MIPS at 2.6 GHz | 7.283 MIPS/MHz | 2006 | [8] |
| Intel Core 2 Extreme X6800 | 27,079 MIPS at 2.93 GHz | 9.242 MIPS/MHz | 2006 | [8] |
| Intel Core 2 Extreme QX6700 | 49,161 MIPS at 2.66 GHz | 18.481 MIPS/MHz | 2006 | [9] |
| P.A. Semi PA6T-1682M | 8,800 MIPS at 2.0 GHz | 4.4 MIPS/MHz | 2007 | [10] |
| Intel Core 2 Extreme QX9770 | 59,455 MIPS at 3.2 GHz | 18.580 MIPS/MHz | 2008 | [11] |
| Intel Core i7 Extreme 965EE | 76,383 MIPS at 3.2 GHz | 23.860 MIPS/MHz | 2008 | [12] |
| AMD Phenom II X4 940 Black Edition | 42,820 MIPS at 3.0 GHz | 14.273 MIPS/MHz | 2009 | [13] |
Historic Data
- Computer Speeds From Instruction Mixes pre-1960 to 1971 (kIPS 175 systems)
- Computer Speed Claims 1980 to 1996 (MIPS >2000 systems)
- PC CPU Performance Comparisons %MIPS/MHz
See also
- FLOPS
- benchmark (computing)
- million service units (MSU)
- Peak MIPS
- Relative MIPS
- Dhrystone MIPS (DMIPS)
References
- ^ http://www.transhumanist.com/volume1/appendix.htm
- ^ MCS4 > IntelP4004
- ^ Intel 80286 Microprocessor Chip (c1982) ]
- ^ SiSoftware Zone
- ^ Zilog Sees New Lease of Life for Z80 in Internet Appliances | Computergram International | Find Articles at BNET.com
- ^ Freescale Semiconductor - MPC8272 PowerQUICC II Processor Family
- ^ ARM Cortex-A8
- ^ a b c CPU Charts 2007 - Tom's Hardware
- ^ Synthetics, Continued - Tom's Hardware : Intel's Core 2 Quadro Kentsfield: Four Cores on a Rampage
- ^ 登錄電子工程專輯網站,時刻處於電子設計的潮流尖端
- ^ Synthetic - Sandra CPU - Tom's Hardware : Intel Core 2 Extreme QX9770: Paper Tiger?
- ^ H Enthusiast Synthetic - Sandra CPU
- ^ XtremeSystems Member Synthetic - Sandra CPU