While technology scaling enables increased density for memory cells, the intrinsic high leakage power of conventional CMOS technology and the demand for reduced energy consumption inspires the use of emerging technology alternatives such as eDRAM and Non-Volatile Memory (NVM) including STT-MRAM, PCM, and RRAM. The utilization of emerging technology in Last Level Cache (LLC) designs which occupies a signifcant fraction of total die area in Chip Multi Processors (CMPs) introduces new dimensions of vulnerability, energy consumption, and performance delivery. To be specific, a part of this research focuses on eDRAM Bit Upset Vulnerability Factor (BUVF) to assess vulnerable portion of the eDRAM refresh cycle where the critical charge varies depe...
Multi-level/triple-level cell non-volatile memories (MLC/TLC NVMs) such as phase-change memory and r...
Non-volatile memory (NVM) technologies are interesting alternatives for building on-chip Last-Level ...
Journal ArticleConventional microarchitectures choose a single memory hierarchy design point target...
While technology scaling enables increased density for memory cells, the intrinsic high leakage powe...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
This dissertation focuses on three types of emerging NVMs, spin-transfer torque RAM (STT-RAM), phase...
Current applications demand larger on-chip memory capacity since off-chip memory accesses be-come a ...
Today, intensive efforts to design energy-efficient and high-performance systems-on-chip (SoCs) are ...
Emerging Non Volatile Memories (NVMs) are considered as potential candidates for replacing SRAM in f...
The Memory Wall, or the gap between CPU speed and main memory latency, is ever increasing. The laten...
Over the past two decades, the storage capacity and access bandwidth of main memory have improved tr...
PosterDRAM vendors have traditionally optimized for low cost and high performance, often making desi...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
As capacity and complexity of on-chip cache memory hierarchy increases, the service cost to the crit...
With the recent advancements of CMOS technology, scaling down the feature size has improved memory c...
Multi-level/triple-level cell non-volatile memories (MLC/TLC NVMs) such as phase-change memory and r...
Non-volatile memory (NVM) technologies are interesting alternatives for building on-chip Last-Level ...
Journal ArticleConventional microarchitectures choose a single memory hierarchy design point target...
While technology scaling enables increased density for memory cells, the intrinsic high leakage powe...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
This dissertation focuses on three types of emerging NVMs, spin-transfer torque RAM (STT-RAM), phase...
Current applications demand larger on-chip memory capacity since off-chip memory accesses be-come a ...
Today, intensive efforts to design energy-efficient and high-performance systems-on-chip (SoCs) are ...
Emerging Non Volatile Memories (NVMs) are considered as potential candidates for replacing SRAM in f...
The Memory Wall, or the gap between CPU speed and main memory latency, is ever increasing. The laten...
Over the past two decades, the storage capacity and access bandwidth of main memory have improved tr...
PosterDRAM vendors have traditionally optimized for low cost and high performance, often making desi...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
As capacity and complexity of on-chip cache memory hierarchy increases, the service cost to the crit...
With the recent advancements of CMOS technology, scaling down the feature size has improved memory c...
Multi-level/triple-level cell non-volatile memories (MLC/TLC NVMs) such as phase-change memory and r...
Non-volatile memory (NVM) technologies are interesting alternatives for building on-chip Last-Level ...
Journal ArticleConventional microarchitectures choose a single memory hierarchy design point target...