For computer designers, understanding the characteristics of workloads running on current and future computer systems is of utmost importance during microprocessor design. a microarchitecture-independent method ensures an accurate characterization of inherent program behavior and avoids the weaknesses of, microarchitecture-dependent metrics
In typical computer system design flows, hardware microarchitecture is commonly considered a dynamic...
Measuring performance-critical characteristics of application workloads is important both for develo...
Aspects of microprogramming: the underlying machine structure of microprogrammable processor
For computer designers, understanding the characteristics of workloads running on current and future...
Understanding the behavior of emerging workloads is important for designing next generation micropro...
Program runtime behavior exhibits significant variations across multiple scales. The increasing desi...
Having a representative work-load of the target domain of a microprocessor is extremely important th...
Multicore processors can improve performance by decreasing the execution latency of parallel program...
Composing a representative workload is a crucial step during the design process of a microprocessor....
Workload characterization has been proven an essential tool to architecture design and performance e...
A generalized workload definition is presented which constructs measurable workloads of unit size fr...
Understanding the behavior of current and future workloads is key for designers of future computer s...
Abstract—The microarchitectural design space of a new processor is too large for an architect to eva...
Abstract — Workload design is a well recognized problem in the domain of microprocessor design. Diff...
With the rise of multi-core chips in commodity hardware, the need for specialized workloads to evalu...
In typical computer system design flows, hardware microarchitecture is commonly considered a dynamic...
Measuring performance-critical characteristics of application workloads is important both for develo...
Aspects of microprogramming: the underlying machine structure of microprogrammable processor
For computer designers, understanding the characteristics of workloads running on current and future...
Understanding the behavior of emerging workloads is important for designing next generation micropro...
Program runtime behavior exhibits significant variations across multiple scales. The increasing desi...
Having a representative work-load of the target domain of a microprocessor is extremely important th...
Multicore processors can improve performance by decreasing the execution latency of parallel program...
Composing a representative workload is a crucial step during the design process of a microprocessor....
Workload characterization has been proven an essential tool to architecture design and performance e...
A generalized workload definition is presented which constructs measurable workloads of unit size fr...
Understanding the behavior of current and future workloads is key for designers of future computer s...
Abstract—The microarchitectural design space of a new processor is too large for an architect to eva...
Abstract — Workload design is a well recognized problem in the domain of microprocessor design. Diff...
With the rise of multi-core chips in commodity hardware, the need for specialized workloads to evalu...
In typical computer system design flows, hardware microarchitecture is commonly considered a dynamic...
Measuring performance-critical characteristics of application workloads is important both for develo...
Aspects of microprogramming: the underlying machine structure of microprogrammable processor