Architecture and Physical Implementation of a Third Generation 65 nm, 16 Core, 32 Thread Chip-Multithreading SPARC Processor

Architecture and Physical Implementation of a Third Generation 65 nm, 16 Core, 32 Thread Chip-Multithreading SPARC Processor

This third-generation Chip-Multithreading (CMT) SPARC processor consists of 16 cores with shared memory architecture and supports a total of 32 main threads plus 32 scout threads. It is targeted for high-performance servers, and is optimized for both single- and multi-threaded applications. The 396...

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Veröffentlicht in:IEEE journal of solid-state circuits 2009-01, Vol.44 (1), p.7-17
Hauptverfasser: Konstadinidis, G.K., Tremblay, M., Chaudhry, S., Rashid, M., Lai, P.F., Otaguro, Y., Orginos, Y., Parampalli, S., Steigerwald, M., Gundala, S., Pyapali, R., Rarick, L.D., Elkin, I., Ge, Y., Parulkar, I.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Architecture
Arrays
chip multi-threading (CMT)
Circuits
clocking
Clocks
CMOS
computer architecture
Computers, microcomputers
Design. Technologies. Operation analysis. Testing
Electronics
Exact sciences and technology
execute ahead
Floating point arithmetic
Hardware
hardware scout
Integrated circuits
Integrated circuits by function (including memories and processors)
Magnetic and optical mass memories
microprocessor
Microprocessors
multi-core
multi-threaded
Out of order
Pipelines
power management
register files
Registers
Robustness
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
SerDes
SPARC architecture
Storage and reproduction of information
synchronous and asynchronous clock domains
Throughput
throughput computing
transactional memory
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Beschreibung
Zusammenfassung:This third-generation Chip-Multithreading (CMT) SPARC processor consists of 16 cores with shared memory architecture and supports a total of 32 main threads plus 32 scout threads. It is targeted for high-performance servers, and is optimized for both single- and multi-threaded applications. The 396 mm 2 chip is fabricated in an 11 metal layer 65-nm CMOS process and operates at a nominal frequency of 2.3 GHz, consuming a maximum power of 250 W at 1.2 V. This paper provides an overview of the architectural highlights and describes the physical implementation challenges and solutions including circuit innovations in memory arrays, register files, and floating-point hardware that boost the performance and circuit robustness with low area overhead.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2008.2007144