CSC/ECE 506 Fall 2007/wiki2 5 as: Difference between revisions

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= Cache size and characteristics of multi-core processors =
= Introduction =
Several cache technology which can expedite the speed of processing are used for modern processors over memory-CPU gap. Since the cache structure itself can affect the performance of the cache, to choose an appropriate structure  is an important and a hard to solve problem. For example, generally bigger cache shows better performance. However due to cache pollution, the performance shows diminishing returns as the cache size goes bigger. Thus we have to choose an appropriate cache size. From this point, it might be valuable to look through the cache chracteristics of modern processors.
 
The cache structure can be determined by a few parameters such as cache size, replacement algorithm and associativity, and cache line size. While multi-core processors are introduced, the cache coherency also becomes issue and the coherency protocol such as MESI and MOESI affects the performance. In this psage, several cache parameters will be shown for modern multicore processors as well as for a couple of single-core processors.
 
= Cache sizes in multicore architectures =
 
''Topic'' - Create a table of caches used in current multicore architectures,
including such parameters as number of levels, line size, size and
associativity of each level, latency of each level, whether each level
is shared, and coherence protocol used. Compare this with two or three
recent single-core designs.
 
 
{| border="1" cellpadding="5" cellspacing="0" align="center"
|+'''Detail of Caches'''
|-
! colspan="6" style="background:#ffdead;" | Multicore Processors
|-
! Processor Name
! Number of Levels
! Line Size
! Cache Size
! Associativity
! Coherence Protocol
|-
| AMD Athlon 64 X2
| 2
| 64 bytes (for both L1 & L2)
| L1 - 64KB (Data) + 64KB (Instruction) per core<br/>L2 - 512KB to 1MB per core
| L1 - 2 way (Data and Instruction cache)<br/>L2 - 16 way associative
| Modified Owner Exclusive Shared Invalid (MOESI)
|-
| AMD Athlon 64 FX
| 2
| 64 bytes (for both L1 & L2)
| L1 - 64KB (Data) + 64KB (Instruction) per core<br/>L2 - 1MB per core
| L1 - 2 way (Data and Instruction cache)<br/>L2 - 16 way associative
| Modified Owner Exclusive Shared Invalid (MOESI)
|-
| AMD Athlon Opteron<br/>(marketed for servers)
| 2
| 64 bytes (for both L1 & L2)
| L1 - 64KB (Data) + 64KB (Instruction) per core<br/>L2 - 1MB per core
| L1 - 2 way (Data and Instruction cache)<br/>L2 - 16 way associative
| Modified Owner Exclusive Shared Invalid (MOESI)
|-
| Intel Pentium D
| 2
| L1 - 64 byte lines<br/>L2 - 128 byte lines
| L1 - 16 KB (data only. Instead of instruction cache, a "150KB trace cache" is used)<br/>L2 - 1MB or 2MB per core
| L1 - 4 way<br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Intel Pentium Dual Core
| 2
| L1 - 64 byte lines<br/>L2 - 64 byte lines
| L1 - 32 KB (both Data and Instruction cache)<br/>L2 - 1MB or 2MB per core
| L1 - 4 way<br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Intel Core 2 Duo
| 2
| L1 - 64 byte lines<br/>L2 - 64 byte lines
| L1 - 32 KB (each for Data and Instruction cache)<br/>L2 - 2MB or 4MB
| L1 - 4 way<br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Broadcom SiByte SB1250
| 2
| L1 - 32 byte lines<br/>L2 - 32 byte lines
| L1 - 32 KB (a piece for Data and Instruction caches)<br/>L2 - 512KB
| L1 - 2 way<br/>L2 - 4 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Sun Microsystems UltraSPARC IV
| 2
| L1 - 128byte lines<br/>L2 - 128 byte lines
| L1 - 64KB data, 32KB instruction<br/>L2 - up to 16MB
| L2 - 2 way
| Modified Owner Exclusive Shared Invalid (MOESI)
|-
| IBM Cell Processor
| 2
| Not Available
| L1 - 32 KB (a piece for both data and instruction caches)<br/>L2 - 512KB
| L1 - 2 way instruction, 4 way data<br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|-
! colspan="6" style="background:#ffdead;" | Singlecore Processors
|-
| AMD Athlon 64
| 2
| L1 - 64 byte lines<br/>L2 - 64 byte lines
| L1 - 64 KB (each for Data and Instruction cache)<br/>L2 - 512KB
| L1 - 2 way<br/>L2 - 16 way
| Modified Owner Exclusive Shared Invalid (MOESI)
|-
| AMD K6 / K6 III
| 2
| L1 - 32 byte lines<br/2>L2 - 32 byte lines
| L1 - 32KB data, 32KB instruction<br/>L2 - 256KB
| L1 - 2 way<br/>L2 - 4 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Intel Pentium 4
| 2
| L1 - 64 byte lines<br/>L2 - 128 byte lines
| L1 - 8 KB (data only. Instead of instruction cache, a "150KB trace cache" is used))<br/>L2 -256KB, 512KB or 1MB
| L1 - 4 way<br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|-
| Intel PentiumIII 600
| 2
| L1 - 32 byte lines<br/>L2 - 32 byte lines
| L1 - 16 KB data, 16KB Instruction<br/>L2 - 256KB
| L1 - 4 way <br/>L2 - 8 way
| Modified Exclusive Shared Invalid (MESI)
|}
 
= Conclusion =
Most of processors introduced nowadays have 32K or 64K data/instruction L1 cache which have 2, 4 or 8 set-associativity, although we can have many other sizes and associativity. The cache lines are either 64 or 128 bytes. MESI and MOESI are the prevailed cache coherency protocol.
 
From the above table we find that there isn't much difference in the specifications of caches used in multi-core and single-core processors.
 
= References =
[1] http://www.amd.com/us-en/Processors/ProductInformation
 
[2] http://www.broadcom.com/products/Enterprise-Networking/Communications-Processors/BCM1250
 
[3] http://www-01.ibm.com/chips/techlib/techlib.nsf/products/PowerPC_970MP_Microprocessor
 
[4] http://www.intel.com/products/processor
 
[5] http://www.sun.com/processors/UltraSPARC-IV/
 
[6] http://www.sun.com/processors/UltraSPARC-IV+/
 
[7] http://www.sun.com/processors/UltraSPARC-T1/specs.xml
 
[8] http://www.streamprocessors.com/streamprocessors/Home/Products/Storm-1Family.html
 
[9] http://www.netlib.org/utk/papers/advanced-computers/pa-risc.html
 
[10] http://www.netlib.org/utk/papers/advanced-computers/power4.html
 
[11] http://www.netlib.org/utk/papers/advanced-computers/power5.html
 
[12] http://en.wikipedia.org/wiki/Cell_microprocessor
 
[13] http://techreport.com/articles.x/8236/2
 
[14] http://www.hardwaresecrets.com/article/481/9

Latest revision as of 02:01, 29 September 2007

Introduction

Several cache technology which can expedite the speed of processing are used for modern processors over memory-CPU gap. Since the cache structure itself can affect the performance of the cache, to choose an appropriate structure is an important and a hard to solve problem. For example, generally bigger cache shows better performance. However due to cache pollution, the performance shows diminishing returns as the cache size goes bigger. Thus we have to choose an appropriate cache size. From this point, it might be valuable to look through the cache chracteristics of modern processors.

The cache structure can be determined by a few parameters such as cache size, replacement algorithm and associativity, and cache line size. While multi-core processors are introduced, the cache coherency also becomes issue and the coherency protocol such as MESI and MOESI affects the performance. In this psage, several cache parameters will be shown for modern multicore processors as well as for a couple of single-core processors.

Cache sizes in multicore architectures

Topic - Create a table of caches used in current multicore architectures, including such parameters as number of levels, line size, size and associativity of each level, latency of each level, whether each level is shared, and coherence protocol used. Compare this with two or three recent single-core designs.


Detail of Caches
Multicore Processors
Processor Name Number of Levels Line Size Cache Size Associativity Coherence Protocol
AMD Athlon 64 X2 2 64 bytes (for both L1 & L2) L1 - 64KB (Data) + 64KB (Instruction) per core
L2 - 512KB to 1MB per core
L1 - 2 way (Data and Instruction cache)
L2 - 16 way associative
Modified Owner Exclusive Shared Invalid (MOESI)
AMD Athlon 64 FX 2 64 bytes (for both L1 & L2) L1 - 64KB (Data) + 64KB (Instruction) per core
L2 - 1MB per core
L1 - 2 way (Data and Instruction cache)
L2 - 16 way associative
Modified Owner Exclusive Shared Invalid (MOESI)
AMD Athlon Opteron
(marketed for servers)
2 64 bytes (for both L1 & L2) L1 - 64KB (Data) + 64KB (Instruction) per core
L2 - 1MB per core
L1 - 2 way (Data and Instruction cache)
L2 - 16 way associative
Modified Owner Exclusive Shared Invalid (MOESI)
Intel Pentium D 2 L1 - 64 byte lines
L2 - 128 byte lines
L1 - 16 KB (data only. Instead of instruction cache, a "150KB trace cache" is used)
L2 - 1MB or 2MB per core
L1 - 4 way
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)
Intel Pentium Dual Core 2 L1 - 64 byte lines
L2 - 64 byte lines
L1 - 32 KB (both Data and Instruction cache)
L2 - 1MB or 2MB per core
L1 - 4 way
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)
Intel Core 2 Duo 2 L1 - 64 byte lines
L2 - 64 byte lines
L1 - 32 KB (each for Data and Instruction cache)
L2 - 2MB or 4MB
L1 - 4 way
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)
Broadcom SiByte SB1250 2 L1 - 32 byte lines
L2 - 32 byte lines
L1 - 32 KB (a piece for Data and Instruction caches)
L2 - 512KB
L1 - 2 way
L2 - 4 way
Modified Exclusive Shared Invalid (MESI)
Sun Microsystems UltraSPARC IV 2 L1 - 128byte lines
L2 - 128 byte lines
L1 - 64KB data, 32KB instruction
L2 - up to 16MB
L2 - 2 way Modified Owner Exclusive Shared Invalid (MOESI)
IBM Cell Processor 2 Not Available L1 - 32 KB (a piece for both data and instruction caches)
L2 - 512KB
L1 - 2 way instruction, 4 way data
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)
Singlecore Processors
AMD Athlon 64 2 L1 - 64 byte lines
L2 - 64 byte lines
L1 - 64 KB (each for Data and Instruction cache)
L2 - 512KB
L1 - 2 way
L2 - 16 way
Modified Owner Exclusive Shared Invalid (MOESI)
AMD K6 / K6 III 2 L1 - 32 byte lines
L2 - 32 byte lines
L1 - 32KB data, 32KB instruction
L2 - 256KB
L1 - 2 way
L2 - 4 way
Modified Exclusive Shared Invalid (MESI)
Intel Pentium 4 2 L1 - 64 byte lines
L2 - 128 byte lines
L1 - 8 KB (data only. Instead of instruction cache, a "150KB trace cache" is used))
L2 -256KB, 512KB or 1MB
L1 - 4 way
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)
Intel PentiumIII 600 2 L1 - 32 byte lines
L2 - 32 byte lines
L1 - 16 KB data, 16KB Instruction
L2 - 256KB
L1 - 4 way
L2 - 8 way
Modified Exclusive Shared Invalid (MESI)

Conclusion

Most of processors introduced nowadays have 32K or 64K data/instruction L1 cache which have 2, 4 or 8 set-associativity, although we can have many other sizes and associativity. The cache lines are either 64 or 128 bytes. MESI and MOESI are the prevailed cache coherency protocol.

From the above table we find that there isn't much difference in the specifications of caches used in multi-core and single-core processors.

References

[1] http://www.amd.com/us-en/Processors/ProductInformation

[2] http://www.broadcom.com/products/Enterprise-Networking/Communications-Processors/BCM1250

[3] http://www-01.ibm.com/chips/techlib/techlib.nsf/products/PowerPC_970MP_Microprocessor

[4] http://www.intel.com/products/processor

[5] http://www.sun.com/processors/UltraSPARC-IV/

[6] http://www.sun.com/processors/UltraSPARC-IV+/

[7] http://www.sun.com/processors/UltraSPARC-T1/specs.xml

[8] http://www.streamprocessors.com/streamprocessors/Home/Products/Storm-1Family.html

[9] http://www.netlib.org/utk/papers/advanced-computers/pa-risc.html

[10] http://www.netlib.org/utk/papers/advanced-computers/power4.html

[11] http://www.netlib.org/utk/papers/advanced-computers/power5.html

[12] http://en.wikipedia.org/wiki/Cell_microprocessor

[13] http://techreport.com/articles.x/8236/2

[14] http://www.hardwaresecrets.com/article/481/9