Title :
Architecture and Physical Implementation of a Third Generation 65 nm, 16 Core, 32 Thread Chip-Multithreading SPARC Processor
Author :
Konstadinidis, Georgios K. ; Tremblay, Marc ; Chaudhry, Shailender ; Rashid, Mamun ; Lai, Peter F. ; Otaguro, Yukio ; Orginos, Yannis ; Parampalli, Sudhendra ; Steigerwald, Mark ; Gundala, Shriram ; Pyapali, Rambabu ; Rarick, Leonard D. ; Elkin, Ilyas ; G
Author_Institution :
Sun Microsyst., Santa Clara, CA
Abstract :
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 mm2 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.
Keywords :
CMOS digital integrated circuits; microprocessor chips; multi-threading; CMOS process; circuit innovations; floating-point hardware; frequency 2.3 GHz; high-performance servers; power 250 W; shared memory architecture; size 65 nm; third generation chip-multithreading SPARC processor; voltage 1.2 V; Circuits; Clocks; Hardware; Microprocessors; Out of order; Pipelines; Registers; Robustness; Throughput; Arrays; SPARC architecture; SerDes; chip multi-threading (CMT); clocking; computer architecture; execute ahead; hardware scout; microprocessor; multi-core; multi-threaded; power management; register files; synchronous and asynchronous clock domains; throughput computing; transactional memory;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2008.2007144
