Multiprocessor embedded systems often have processor-local caches and a shared memory. If the system’s code is available at design time we can maximize cache hits by rearranging code in memory so that frequently executed tasks reside in reserved areas of the caches and are not overwritten by less frequent tasks. Categories and Subject Descriptor
In the embedded domain, the gap between memory and processor performance and the increase in applica...
Abstract—Code repositioning is a well-known method of reducing inefficient off-chip memory accesses ...
We propose a way to improve the performance of embed ded processors running dataintensive applicatio...
Embedded systems are getting popular in today’s world. They are usually small and thus have a limite...
Abstract — On chip memories provide fast and energy efficient storage for code and data in compariso...
Code generation for embedded processors opens up the possibility for several performance optimizatio...
The memory hierarchy subsystem has a significant impact on performance and energy consumption of an ...
Due to the rapid development in the technology, embedded systems have an effective part in controlli...
Abstract — In many computer systems, a large portion of the execution time and energy consumption is...
The memory system of a modern embedded processor con- sumes a large fraction of total system energy....
Embedded systems are increasingly moving from running single applications to running application set...
This paper explores an application-specific customization technique for the data cache, one of the f...
In embedded systems caches are very precious for keeping low the memory bandwidth and to allow emplo...
The instruction cache is a popular target for optimizations of microprocessor-based systems because ...
In the embedded domain, the gap between memory and processor performance and the increase in applica...
In the embedded domain, the gap between memory and processor performance and the increase in applica...
Abstract—Code repositioning is a well-known method of reducing inefficient off-chip memory accesses ...
We propose a way to improve the performance of embed ded processors running dataintensive applicatio...
Embedded systems are getting popular in today’s world. They are usually small and thus have a limite...
Abstract — On chip memories provide fast and energy efficient storage for code and data in compariso...
Code generation for embedded processors opens up the possibility for several performance optimizatio...
The memory hierarchy subsystem has a significant impact on performance and energy consumption of an ...
Due to the rapid development in the technology, embedded systems have an effective part in controlli...
Abstract — In many computer systems, a large portion of the execution time and energy consumption is...
The memory system of a modern embedded processor con- sumes a large fraction of total system energy....
Embedded systems are increasingly moving from running single applications to running application set...
This paper explores an application-specific customization technique for the data cache, one of the f...
In embedded systems caches are very precious for keeping low the memory bandwidth and to allow emplo...
The instruction cache is a popular target for optimizations of microprocessor-based systems because ...
In the embedded domain, the gap between memory and processor performance and the increase in applica...
In the embedded domain, the gap between memory and processor performance and the increase in applica...
Abstract—Code repositioning is a well-known method of reducing inefficient off-chip memory accesses ...
We propose a way to improve the performance of embed ded processors running dataintensive applicatio...