Add to ORKGChip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only way to build high-performance microprocessors, for a variety of reasons. Large uniprocessors are no longer scaling in performance, because it is only possible to extract a limited amount of parallelism from a typical instruction stream using conventional superscalar instruction issue techniques. In addition, one cannot simply ratchet up the clock speed on today’s processors, or the power dissipation will become prohibitive in all but water-cooled systems. Compounding these problems is the simple fact that with the immense numbers of transistors available on today’s microprocessor chips, it is too costly to design and debug ever-larger processo...
The performance of single-core microprocessors, or uniprocessors, has been driven over the years by ...
Nowadays microprocessors are among the most complex electronic systems that man has ever designed. O...
New trend for achieving high performance in processors history as well as evolutionary change in the...
Chip multiprocessors (CMPs) aim to develop both instruction-level and thread-level parallelisms to b...
Recent product announcements show a clear trend towards aggressive integration of multiple cores on ...
Due to inherent non-scalability of superscalar processors, processor manufacturers have switched to ...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Hardware design for high performance computing appears to be reaching its limits on several fronts. ...
promise of huge performance gains is now a reality. he performance of microprocessors that power mod...
75 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.Experiments with the SpecInt 2...
In recent years, a variety of concerns in power and thermal issues, instruction-level parallelism (I...
Exploitation of parallelism has for decades been central to the pursuit of computing performance. Th...
Abstract Chip multi-processors (CMPs) already have widespread com-mercial availability, and technolo...
Chip Multiprocessors (CMPs) or multi-core architectures are a new class of processor architectures. ...
The microprocessor industry is rapidly moving to the use of multicore chips as general-purpose proce...
The performance of single-core microprocessors, or uniprocessors, has been driven over the years by ...
Nowadays microprocessors are among the most complex electronic systems that man has ever designed. O...
New trend for achieving high performance in processors history as well as evolutionary change in the...
Chip multiprocessors (CMPs) aim to develop both instruction-level and thread-level parallelisms to b...
Recent product announcements show a clear trend towards aggressive integration of multiple cores on ...
Due to inherent non-scalability of superscalar processors, processor manufacturers have switched to ...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Hardware design for high performance computing appears to be reaching its limits on several fronts. ...
promise of huge performance gains is now a reality. he performance of microprocessors that power mod...
75 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.Experiments with the SpecInt 2...
In recent years, a variety of concerns in power and thermal issues, instruction-level parallelism (I...
Exploitation of parallelism has for decades been central to the pursuit of computing performance. Th...
Abstract Chip multi-processors (CMPs) already have widespread com-mercial availability, and technolo...
Chip Multiprocessors (CMPs) or multi-core architectures are a new class of processor architectures. ...
The microprocessor industry is rapidly moving to the use of multicore chips as general-purpose proce...
The performance of single-core microprocessors, or uniprocessors, has been driven over the years by ...
Nowadays microprocessors are among the most complex electronic systems that man has ever designed. O...
New trend for achieving high performance in processors history as well as evolutionary change in the...