Add to ORKGAchieving the main memory (DRAM) required bandwidth at ac- ceptable power levels for current and future applications is a ma- jor challenge for System-on-Chip designers for mobile platforms. Three dimensional (3D) integration and 3D stacked DRAM mem- ories promise to provide a significant boost in bandwidth at low power levels by exploiting multiple channels and wide data inter- faces. In this paper, we address the problem of efficiently exploit- ing the multiple channels provided by standard (JEDEC’s WIDE- IO) 3D-stacked memories, to extract maximal effective bandwidth and minimize latency for main memory access. We propose a new distributed interleaved access method that leverages the on-chip in- terconnect to simplify the design and impl...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
[[abstract]]To address the “memory wall” challenge, on-chip memory stacking has been proposed as a p...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Historically, processor performance has increased at a much faster rate than that of main memory and...
Historically, processor performance has increased at a much faster rate than that of main memory and...
Historically, processor performance has increased at a much faster rate than that of main memory and...
none8Convergence of communication, consumer applications and computing within mobile systems pushes ...
Abstract—Convergence of communication, consumer appli-cations and computing within mobile systems pu...
none43D integration based on TSV (through silicon via) technology enables stacking of multiple memor...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
[[abstract]]To address the “memory wall” challenge, on-chip memory stacking has been proposed as a p...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
Historically, processor performance has increased at a much faster rate than that of main memory and...
Historically, processor performance has increased at a much faster rate than that of main memory and...
Historically, processor performance has increased at a much faster rate than that of main memory and...
none8Convergence of communication, consumer applications and computing within mobile systems pushes ...
Abstract—Convergence of communication, consumer appli-cations and computing within mobile systems pu...
none43D integration based on TSV (through silicon via) technology enables stacking of multiple memor...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
[[abstract]]To address the “memory wall” challenge, on-chip memory stacking has been proposed as a p...