Abstract—Continuous circuit and wire miniaturization in-creasingly exert more pressure on the computer designers to address the issue of reliable operation in the presence of faults. Virtually all previous work on processor reliability addresses problems due to faults in architectural structures, such as the register file or caches. However, faults can happen in non-architectural resources, such as predictors and replacement bits. Although non-architectural faults do not affect correctness they can degrade a processor performance significantly and, therefore, may render them as important to deal with as architectural faults. This paper quantifies the performance implications of faults in a line-predictor, and shows that performance can drop...
Over three decades of continuous scaling in CMOS technology has led to tremendous improvements in pr...
textSilicon reliability has reemerged as a very important problem in digital system design. As volta...
With few exceptions, the two issues of algorithm design and fault tolerance for processor arrays hav...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Future microprocessors will be highly susceptible to transient errors as the sizes of transistors de...
This paper presents a first-order analytical model for determining the performance degradation cause...
Branch prediction feeds a speculative execution processor core with instructions. Branch mispredicti...
Single-event upsets from particle strikes have become a key challenge in microprocessor design. Tech...
Abstract: In our previously published research we discovered some very difficult to predict branches...
Modern processors rely heavily on speculation to provide performance. Techniques such as branch pred...
Speculative processors include performance oriented modules that improve the processor performance b...
Abstract—Soft Errors have emerged as a key challenge to microprocessor design. Traditional soft erro...
This paper presents the results of an extensive fault injection study of the impact of processor fau...
Over three decades of continuous scaling in CMOS technology has led to tremendous improvements in pr...
textSilicon reliability has reemerged as a very important problem in digital system design. As volta...
With few exceptions, the two issues of algorithm design and fault tolerance for processor arrays hav...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Continuous circuit and wire miniaturization increasingly exert more pressure on the computer designe...
Future microprocessors will be highly susceptible to transient errors as the sizes of transistors de...
This paper presents a first-order analytical model for determining the performance degradation cause...
Branch prediction feeds a speculative execution processor core with instructions. Branch mispredicti...
Single-event upsets from particle strikes have become a key challenge in microprocessor design. Tech...
Abstract: In our previously published research we discovered some very difficult to predict branches...
Modern processors rely heavily on speculation to provide performance. Techniques such as branch pred...
Speculative processors include performance oriented modules that improve the processor performance b...
Abstract—Soft Errors have emerged as a key challenge to microprocessor design. Traditional soft erro...
This paper presents the results of an extensive fault injection study of the impact of processor fau...
Over three decades of continuous scaling in CMOS technology has led to tremendous improvements in pr...
textSilicon reliability has reemerged as a very important problem in digital system design. As volta...
With few exceptions, the two issues of algorithm design and fault tolerance for processor arrays hav...