Free Online Productivity Tools
i2Speak
i2Symbol
i2OCR
iTex2Img
iWeb2Print
iWeb2Shot
i2Type
iPdf2Split
iPdf2Merge
i2Bopomofo
i2Arabic
i2Style
i2Image
i2PDF
iLatex2Rtf
Sci2ools
SC
2009
ACM
2009
ACM
Future scaling of processor-memory interfaces
Continuous evolution in process technology brings energyefficiency and reliability challenges, which are harder for memory system designs since chip multiprocessors demand high bandwidth and capacity, global wires improve slowly, and more cells are susceptible to hard and soft errors. Recently, there are proposals aiming at better main-memory energy efficiency by dividing a memory rank into subsets. We holistically assess the effectiveness of rank subsetting in the context of system-wide performance, energy-efficiency, and reliability perspectives. We identify the impact of rank subsetting on memory power and processor performance analytically, then verify the analyses by simulating a chipmultiprocessor system using multithreaded and consolidated workloads. We extend the design of Multicore DIMM, one proposal embodying rank subsetting, for high-reliability systems and show that compared with conventional chipkill approaches, it can lead to much higher system-level energy efficiency ...
Real-time TrafficRelated Content
| Added | 19 May 2010 |
| Updated | 19 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | SC |
| Authors | Jung Ho Ahn, Norman P. Jouppi, Christos Kozyrakis, Jacob Leverich, Robert S. Schreiber |
Comments (0)
Researcher Info
|
