Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh computational throughput is needed, it’s worth to think it over if dedicated hardwaresolutions would be more efficient, either in terms of performance (or performance to price ratio),or in terms of power efficiency, or both. This paper describes them briefly and comparesto contemporary general-purpose processors’ architecture
CPU’s performance is not enough to fit today’s needs, such as cloud computing, biomedical research, ...
With processor clock speeds having stagnated, parallel computing architectures have achieved a break...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Tyt. z nagłówka.Pozostali autorzy artykułu: Ernest Jamro, Paweł Russek, Kazimierz Wiatr.Bibliogr. s....
Nowadays, general-purpose processors are being used in scientific computing. However, when high comp...
In this paper a novel method of computation using FPGA technology is presented. In severalcases this...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
In this paper, hardware and software techniques are presented for improving the Throughput (defined ...
The paper deals with some problems arising in the course of development of modern high-performance c...
For many scientific and engineering applications the computational needs are growing faster than the...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The primary goal of the presented experiment was to judge the usefulness of FPGA technology in the s...
Floating-point computing with more than one TFLOP of peak performance is already a reality in recent...
CPU’s performance is not enough to fit today’s needs, such as cloud computing, biomedical research, ...
With processor clock speeds having stagnated, parallel computing architectures have achieved a break...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Tyt. z nagłówka.Pozostali autorzy artykułu: Ernest Jamro, Paweł Russek, Kazimierz Wiatr.Bibliogr. s....
Nowadays, general-purpose processors are being used in scientific computing. However, when high comp...
In this paper a novel method of computation using FPGA technology is presented. In severalcases this...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
In this paper, hardware and software techniques are presented for improving the Throughput (defined ...
The paper deals with some problems arising in the course of development of modern high-performance c...
For many scientific and engineering applications the computational needs are growing faster than the...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The primary goal of the presented experiment was to judge the usefulness of FPGA technology in the s...
Floating-point computing with more than one TFLOP of peak performance is already a reality in recent...
CPU’s performance is not enough to fit today’s needs, such as cloud computing, biomedical research, ...
With processor clock speeds having stagnated, parallel computing architectures have achieved a break...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...