With the rapid growth of AMD as a competitor in the CPU industry, it is imperative that high-performance and architectural engineers analyze new AMD CPUs. By understanding new and unfamiliar architectures, engineers are able to adapt their algorithms to fully utilize new hardware. Furthermore, engineers are able to anticipate the limitations of an architecture and determine when an alternate platform is desirable for a particular workload. This paper presents results which show that the AMD "Rome" architecture performance suffers once an application's memory bandwidth exceeds 37.5 GiB/s for integer-heavy applications, or 100 GiB/s for floating-point-heavy workloads. Strong positive correlations between memory bandwidth and CPI are presented...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
THE WIDENING GAP BETWEEN TODAY’S PROCESSOR AND MEMORY SPEEDS MAKES DRAM SUBSYSTEM DESIGN AN INCREASI...
Parallelism is ubiquitous in modern computer architectures. Heterogeneity of CPU cores and deep memo...
SPEC CPU is one of the most common benchmark suites used in computer architecture research. CPU2017 ...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Computer architecture is entering its second golden age. The number of servers worldwide is estimate...
Supercomputer architects strive to maximize the performance of scientific applications. Unfortunatel...
For years, SIMD/vector units have enhanced the capabilities of modern CPUs in High-Performance Compu...
August 2010 decades [18]. The unbalanced performance improvement leads to one of the significant per...
The world needs special-purpose accelerators to meet future constraints on computation and power con...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Many high performance applications run well below the peak arithmetic performance of the underlying...
In response to the growing gap between memory access time and processor speed, DRAM manufacturers ha...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
THE WIDENING GAP BETWEEN TODAY’S PROCESSOR AND MEMORY SPEEDS MAKES DRAM SUBSYSTEM DESIGN AN INCREASI...
Parallelism is ubiquitous in modern computer architectures. Heterogeneity of CPU cores and deep memo...
SPEC CPU is one of the most common benchmark suites used in computer architecture research. CPU2017 ...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Computer architecture is entering its second golden age. The number of servers worldwide is estimate...
Supercomputer architects strive to maximize the performance of scientific applications. Unfortunatel...
For years, SIMD/vector units have enhanced the capabilities of modern CPUs in High-Performance Compu...
August 2010 decades [18]. The unbalanced performance improvement leads to one of the significant per...
The world needs special-purpose accelerators to meet future constraints on computation and power con...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Many high performance applications run well below the peak arithmetic performance of the underlying...
In response to the growing gap between memory access time and processor speed, DRAM manufacturers ha...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...