Scratchpad memories (SPMs) have become a promising on-chip storage solution for embedded systems from an energy, performance and predictability perspective. The thermal behavior of these types of memories has not been considered in detail. The thermal behavior in silicon devices plays an important role in the reliability of these systems and static (leakage) power consumption. In this short note, we outline a scheme to reduce the peak temperature and thermal cycling of SPMs in applications that have regular access patterns on their data structures. The key idea of our method is to physically distribute these accesses evenly over the whole memory area
In this paper we address the problem of on-chip mem-ory selection for computationally intensive appl...
Scratch-pad memories (SPM) are small on-chip mem-ory devices whose access is much faster and consume...
Abstract — Memories are increasingly dominating Systems on Chip (SoC) designs and thus contribute a ...
Scratchpad memories (SPMs) have become a promising on-chip storage solution for embedded systems fro...
Scratchpad memories (SPMs) have become a promising on-chip storage solution for embedded systems fro...
In VLSI systems-on-chips (SoC), leakage is expected to override 50% of the total power consumption, ...
[[abstract]]DRAM is usually used as main memory for program execution. The thermal behavior of a mem...
Current trends indicate that leakage energy consumption will be an important concern in upcoming pro...
Energy management of memory subsystem is challenging due to performance and thermal constraints. Big...
The hybrid memory architecture that contains both on-chip cache and scratchpad memory (SPM) has been...
none3Focusing on embedded applications, scratchpad memories (SPMs) look like a best-compromise solut...
Abstract—We propose a code scratchpad memory (SPM) management technique with demand paging for embed...
Abstract—Code repositioning is a well-known method of reducing inefficient off-chip memory accesses ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
1 Alexander Neckar was affiliated with Northwestern University when this work was performed. The per...
In this paper we address the problem of on-chip mem-ory selection for computationally intensive appl...
Scratch-pad memories (SPM) are small on-chip mem-ory devices whose access is much faster and consume...
Abstract — Memories are increasingly dominating Systems on Chip (SoC) designs and thus contribute a ...
Scratchpad memories (SPMs) have become a promising on-chip storage solution for embedded systems fro...
Scratchpad memories (SPMs) have become a promising on-chip storage solution for embedded systems fro...
In VLSI systems-on-chips (SoC), leakage is expected to override 50% of the total power consumption, ...
[[abstract]]DRAM is usually used as main memory for program execution. The thermal behavior of a mem...
Current trends indicate that leakage energy consumption will be an important concern in upcoming pro...
Energy management of memory subsystem is challenging due to performance and thermal constraints. Big...
The hybrid memory architecture that contains both on-chip cache and scratchpad memory (SPM) has been...
none3Focusing on embedded applications, scratchpad memories (SPMs) look like a best-compromise solut...
Abstract—We propose a code scratchpad memory (SPM) management technique with demand paging for embed...
Abstract—Code repositioning is a well-known method of reducing inefficient off-chip memory accesses ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
1 Alexander Neckar was affiliated with Northwestern University when this work was performed. The per...
In this paper we address the problem of on-chip mem-ory selection for computationally intensive appl...
Scratch-pad memories (SPM) are small on-chip mem-ory devices whose access is much faster and consume...
Abstract — Memories are increasingly dominating Systems on Chip (SoC) designs and thus contribute a ...