Memories today expose an all-or-nothing correctness model that incurs significant costs in performance, energy, area, and design complexity. But not all applications need high-precision storage for all of their data structures all of the time. This paper proposes mechanisms that enable applications to store data approximately and shows that doing so can improve the performance, lifetime, or density of solid-state memories. We propose two mechanisms. The first allows errors in multi-level cells by reducing the number of programming pulses used to write them. The second mechanism mit-igates wear-out failures and extends memory endurance by mapping approximate data onto blocks that have exhausted their hardware error correction resources. Simu...
As technology scaling poses a threat to DRAM scaling due to phys-ical limitations such as limited ch...
Solid-state drives (SSDs) faced an astonishing development in the last few years, becoming the corne...
The emergence of more reliable, often much faster solid-stage storage devices is revolutionizing mos...
Memories today expose an all-or-nothing correctness model that incurs significant costs in performan...
CMOS is a technology that has been around for many years. Because of its low cost and high availabil...
Memories occupy a significant area of chip real estate and are major contributors to total system en...
Phase Change Memory (PCM) is an emerging non-volatile memory technology that could either replace or...
While the memory subsystem is already a major contribu-tor to energy consumption of computing platfo...
This paper demonstrates how to utilize the inherent error resilience of a wide range of applications...
Embedded memories account for a large fraction of the overall silicon area and power consumption in ...
As memory technology scales, the demand for higher performance and reliable operation is increasing ...
Approximate computing (AC) leverages the inherent error resilience and is used in many big-data appl...
With a need to deliver highest quality products operating in all environments, cope with small and u...
Phase Change Memory (PCM) is an emerging nonvolatile memory technology that offers high storage dens...
As DRAM is facing the scaling difficulty in terms of energy cost and reliability, some nonvol-atile ...
As technology scaling poses a threat to DRAM scaling due to phys-ical limitations such as limited ch...
Solid-state drives (SSDs) faced an astonishing development in the last few years, becoming the corne...
The emergence of more reliable, often much faster solid-stage storage devices is revolutionizing mos...
Memories today expose an all-or-nothing correctness model that incurs significant costs in performan...
CMOS is a technology that has been around for many years. Because of its low cost and high availabil...
Memories occupy a significant area of chip real estate and are major contributors to total system en...
Phase Change Memory (PCM) is an emerging non-volatile memory technology that could either replace or...
While the memory subsystem is already a major contribu-tor to energy consumption of computing platfo...
This paper demonstrates how to utilize the inherent error resilience of a wide range of applications...
Embedded memories account for a large fraction of the overall silicon area and power consumption in ...
As memory technology scales, the demand for higher performance and reliable operation is increasing ...
Approximate computing (AC) leverages the inherent error resilience and is used in many big-data appl...
With a need to deliver highest quality products operating in all environments, cope with small and u...
Phase Change Memory (PCM) is an emerging nonvolatile memory technology that offers high storage dens...
As DRAM is facing the scaling difficulty in terms of energy cost and reliability, some nonvol-atile ...
As technology scaling poses a threat to DRAM scaling due to phys-ical limitations such as limited ch...
Solid-state drives (SSDs) faced an astonishing development in the last few years, becoming the corne...
The emergence of more reliable, often much faster solid-stage storage devices is revolutionizing mos...