Abstract—Yield enhancement through the acceptance of partially good chips is a well-known technique [1], [2], [3]. In this paper, we derive a yield model for single-chip VLSI processors with partially good on-chip cache. Also, we investigate how the yield enhancement of VLSI processors with on-chip CPU cache relates with the number of acceptable faulty cache blocks, the percentage of the cache area with respect to the whole chip area, and various manufacturing process parameters as defect densities and the fault clustering parameter. One of the main conclusions is that the maximum effective yield is achieved by accepting as good, caches with a very small number of faulty cache blocks. One of the main conclusions is that the maximum effectiv...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
VLSI systems in the nanometer regime suffer from high defect rates and large parametric variations t...
Deep sub-micron VLSI technologies have led to a large increase in the number of de-vices per die as ...
In this paper a yield model for single chip VLSI processors with two level on-chip caches is derived...
Ever decreasing device size causes more frequent hard faults, which becomes a serious burden to proc...
The continued increase in microprocessor clock frequency that has come from advancements in fabricat...
Yield improvement through exploiting fault-free sections of defective chips is a well-known techniqu...
The motivation of this research is to study different cache designs for on-chip caches that improve ...
As device density grows, each transistor gets smaller and more fragile leading to an overall higher ...
Abstract—VLSI systems in the nanometer regime suffer from high defect rates and large parametric var...
As transistor feature sizes continue to shrink into the sub-90nm range and beyond, the effects of pr...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
The traditional performance-cost benefits we have enjoyed for decades from technology scaling are ch...
The manufacturing of integrated circuits is not a perfect fault-free process. The constant downscali...
Abstract—This paper proposes a new fault tolerant cache organ-ization capable of dynamically mapping...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
VLSI systems in the nanometer regime suffer from high defect rates and large parametric variations t...
Deep sub-micron VLSI technologies have led to a large increase in the number of de-vices per die as ...
In this paper a yield model for single chip VLSI processors with two level on-chip caches is derived...
Ever decreasing device size causes more frequent hard faults, which becomes a serious burden to proc...
The continued increase in microprocessor clock frequency that has come from advancements in fabricat...
Yield improvement through exploiting fault-free sections of defective chips is a well-known techniqu...
The motivation of this research is to study different cache designs for on-chip caches that improve ...
As device density grows, each transistor gets smaller and more fragile leading to an overall higher ...
Abstract—VLSI systems in the nanometer regime suffer from high defect rates and large parametric var...
As transistor feature sizes continue to shrink into the sub-90nm range and beyond, the effects of pr...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
The traditional performance-cost benefits we have enjoyed for decades from technology scaling are ch...
The manufacturing of integrated circuits is not a perfect fault-free process. The constant downscali...
Abstract—This paper proposes a new fault tolerant cache organ-ization capable of dynamically mapping...
Process parameter variations are expected to be significantly high in a sub-50-nm technology regime,...
VLSI systems in the nanometer regime suffer from high defect rates and large parametric variations t...
Deep sub-micron VLSI technologies have led to a large increase in the number of de-vices per die as ...