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Advanced Micro Devices - Athlon Buddy Guest Mike Lewitt Bill McCorkle November 28, 2001
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RISC IA-64 IA-32 What Have We Seen So Far? Where is the Competition?
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Overview of Today’s Events Company History Differences in AMD Athlon Architecture System Bus Macro vs. Micro Operations Floating Point Operations Branch Prediction Memory Management Comparing Processor Performance
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AMDIntel May 1, 1969 – founded Semiconductor company 1975 8080A and AM2900 1976 Sign cross-licensing agreement 1987 AMD & Intel go to court 1992 Court awards full rights to AMD to produce AM386 Processor 1991 AM386 (breaks Intel Monopoly) 1993 AM486 1997 AMD-K6 1998 Athlon – 1 st 7 th Generation Processor July 18, 1968 – founded Semiconductor memory 1971 4004 introduced 1971 8008 introduced 1976 Sign cross-licensing agreement 1981 16-bit 8086 1982 286 (on-board memory) 1985 32-bit 386 1989 486 1993 Pentium 1998 Celeron & Pentium II
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Architecture Summary AMD Approach Balanced approach to optimize processor performance ( IPC) and improving the operating frequency at the same time. Intel Approach Increased pipelining depth to handle more instructions which created loss in processor performance ( IPC). Solution: Compensated with much higher frequency to stay in competition. (=IPC)
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Architecture Summary Overall Improvement to Performance Frequency Improvements Smaller Geometries Faster Transistors (“process shrinks”) Deeper Pipelines Fewer Gates Per Clock Cycle Work Per Clock Improvements Super scalar Architectures Dynamic Instruction Schedulers Larger On-Chip Caches Advanced Branch Prediction
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Architecture Summary Clock Speed / EV6 Bus Designed with very high clock speeds in mind K7 has very deep buffers to enable those high clock speeds, offering up to 72 x86 instructions in-flight. Uses Rising Edge and Falling Edge Detection For Bus 100 MHz Clock 200 MHz Processor 133 MHz Clock 266 MHz Processor AMD vs. Intel comparing same clock
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Architecture Summary EV6 Bus on AMD Athlon Scalable up to 200 MHz Yielding Effective frequency 400 MHz Multiprocessor support Highest bus bandwidth (1.60 GB/s) Intel using 133 MHz (1.01 GB/s)
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AMD Athlon PIII
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Architecture Summary Instruction Control Unit Holds 72 MOps Before Assignment (MOp = x86 instruction, therefore Athlon can have 72 “in-flight” instructions) P6 Only Holds 13 in-flight MOps
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Architecture Summary Execution Ports AMD Has No Less Than 9 Intel Has 5 2 Dedicated to memory stores Enhanced Parallelism Inside Athlon
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Micro-OPs / Macro-OPs Athlon has 3 parallel x86 instruction decoders translate into a Macro-Op of 72-entry ICU Uses 2 pipelines (Intel uses 1) -Decoding common instructions (direct path) -Decoding complex x86 instructions (vector path) Integer Scheduler is fed and holds max 15 M-Ops, representing 30 at a time Leads to 3 parallel integer execution units
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Micro-OPs / Macro-OPs Athlon Decoders 3-Way Instruction Has 3 parallel decoding units Can handle any combination of instructions with any of it’s decoders that are “fully capable” decoders Handles Complex and Simple Instructions Intel Decoders Has 3 parallel decoding units 1 Complex 2 Simple Handles Complex / Simple / Simple
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3DNOW! 3DNOW! (Athlon)SSE (Intel) Pipelines (parallel)22 Instructions (how wide)24 Effective Instructions per Cycle4*4 Registers Used3DNOW! / FPUNo FPU Every 4-wide Intel SSE instruction is actually 2 Athlon micro-ops *AMD takes advantage of rising edge as well as falling edge **SSE Cannot be used with MMX Registers MMX Developed When FPUs Not As Important
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3DNOW! Each pipeline can do any instruction above. The second pipeline can do any instruction in any group except the group the first pipeline has chosen.
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3DNOW! Conclusion of 3DNOW! Vs SSE Both have pairing restrictions SSE Separate Unit implementation more difficult program with more freedom MMX-add & prefetch-instructions slightly better for SSE Final Conclusion: DRAW
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Full Architecture views AMD Athlon PIII
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Looking at the ALUs
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Floating Point Operations Fully pipelined FPU 3 ported parallel Floating Point Execution Units Pentium has 3 also, but are behind only one port FPU can execute two 80-bit extended Ops Intel can currently only execute one
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Pipelining Differences Determining the length Execution rate of pipeline (ALU) Degree of Parallelism AMD Athlon Intel Pentium III Integer Pipeline Length 1012-17 Floating Point Pipeline length 15 25 (AMD-Athlon)
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Branch Prediction Example: if (x > 0){ a=0; b=1; c=2; } d=3; When x>0 When x<0 Predicting x<0
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Branch Prediction AMD Athlon Branch Target Buffer size of 2048 entries Branch History Table can store 4096 entries Intel Pentium III Dynamic Branch Predictor can store 512 entries Approximate Correct Branch Predictions AMD Athlon: 95% Intel Pentium III: 90-92%
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Memory Management Level 2 Cache 512kB to 8 MB Rate of 1/3, 1/2, 2/3, 1/1 the clock frequency External to the CPU (Weakness of Athlon) Intel L2: 256kB ‘on-die’ Intel moving away from Slot1 and back to socket AMD will need to move to ‘on-die’ and socket connections to stay competitive Main push towards 0.18 -process Level 1 Cache 64kB data and instruction caches (4x Pentium III) Scalability
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Which One Is Better? In the past (286, 386, 486) Performance = Frequency In Today’s World Performance = IPC * Frequency How else so we compare? Benchmarking
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Software that performs different tasks to obtain comparisons between processors. Problems: Processor frequencies. Other processes already running. Types of programs Some programs are written to take advantage of certain architecture.
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Photo Editing Software
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Animation Software
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3D Graphics Editor
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3D Gaming
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Various Benchmarks
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Summary Past couple years, AMD and Intel have taken different approaches. We have gone over the main architectural differences. We have shown how they compare. It will be very interesting to see how the market plays out.
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Questions?
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References http://www.amd.com http://www.amdzone.com http://www.intel.com Gardner, Ryan. AMD employee CPU Specialist email: ryan.gardner@amd.comryan.gardner@amd.com Hsieh, Paul. 7 th Generation CPU Comparisons. http://www.azillionmonkeys.com/qed/cpujihad.shtml. 11/30/00 http://www.azillionmonkeys.com/qed/cpujihad.shtml Pabst, Thomas. The New Athlon Processor – AMD is Finally Overtaking Intel. http://www6.tomshardware.com/cpu/99q3/990809/index.html. 8/9/99 http://www6.tomshardware.com/cpu/99q3/990809/index.html Pabst, Thomas. AMD Processors vs. Intel Processors – Facts and Lies. http://www6.tomshardware.com/cpu/00q4/001017/athlon-02.html. 10/12/00 http://www6.tomshardware.com/cpu/00q4/001017/athlon-02.html Morgan, Rob. Power Mac G4 Dual 500 vs. Pentium 4 vs. Athlon. http://www.barefeats.com/pentium.html. 1/08/01 http://www.barefeats.com/pentium.html
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