Title :
Scalable processors in the billion-transistor era: IRAM
Author :
Kozyrakis, Christoforos E. ; Perissakis, Stylianos ; Patterson, David ; Anderson, Thomas ; Asanovic, Krste ; Cardwell, Neal ; Fromm, Richard ; Golbus, Jason ; Gribstad, Benjamin ; Keeton, Kimberly ; Thomas, Randi ; Treuhaft, Noah ; Yelick, Katherine
Author_Institution :
California Univ., Berkeley, CA, USA
fDate :
9/1/1997 12:00:00 AM
Abstract :
Members of the University of California, Berkeley, argue that the memory system will be the greatest inhibitor of performance gains in future architectures. Thus, they propose the intelligent RAM or IRAM. This approach greatly increases the on-chip memory capacity by using DRAM technology instead of much less dense SRAM memory cells. The resultant on-chip memory capacity coupled with the high bandwidths available on chip should allow cost-effective vector processors to reach performance levels much higher than those of traditional architectures. Although vector processors require explicit compilation, the authors claim that vector compilation technology is mature (having been used for decades in supercomputers), and furthermore, that future workloads will contain more heavily vectorizable components
Keywords :
memory architecture; reconfigurable architectures; vector processor systems; IRAM; future architectures; intelligent RAM; on-chip memory; scalable processors; vector compilation; vector processors; Bandwidth; Bridges; Computer architecture; Delay; Fabrication; Microprocessor chips; Out of order; Random access memory; Read-write memory; VLIW;
