This paper presents a structure of TLB (translation lookaside buffer) for low power consumption but high performance. The propsed TLB is constructed as a combination of one block buffer and two-way banked TLBs. The processor can access the block buffer or one of two banked TLBs selectively. This feature is quite different from that used in the traditional block buffering technique. Simulation results show its effectiveness in terms of power consumption and Energy*Delay product. The proposed TLB can reduce power consumptions by about 40%, 10%, 23%, and 23%, compared with a FA (fully associative)-TLB, a micro-TLB, a victim-TLB, and a banked-TLB respectively. Also the proposed TLB can reduce Energy*Delay products by about 38%, 28%, 21%, a...
Abstract—The translation look aside buffer (TLB) improves the performance of systems by caching the ...
In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found th...
Address translation using the Translation Lookaside Buffer (TLB) consumes as much as 16 % of the chi...
We present a selective filter-bank translation lookaside buffer (TLB) system with low power consumpt...
Translation lookaside buffers (TLBs) consume significant power due to their highly associative struc...
Translation Look-aside Buffer (TLB), which is small Content Addressable Memory (CAM) structure used ...
The Translation Look-aside Buffer (TLB), a content addressable memory, consumes significant power du...
This paper presents the results of a simulation-based study of various translation lookaside buffer ...
[[abstract]]The conventional private translation lookaside buffer (TLB) design in a multiprocessor s...
Lowering active power dissipation is increasingly important for battery powered embedded microproces...
“Translation lookaside buffer” (TLB) caches virtual to physical address translation information and ...
The thesis deals with circuit-level aspects of CMOS buffer SRAMs where the data throughput rate is a...
International audience—This work demonstrates that a set of commercial and scale-out applications ex...
Translation Lookaside Buffers (TLBs) are critical to overall system performance. Much past research ...
The need for energy efficiency continues to grow for many classes of processors, including those for...
Abstract—The translation look aside buffer (TLB) improves the performance of systems by caching the ...
In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found th...
Address translation using the Translation Lookaside Buffer (TLB) consumes as much as 16 % of the chi...
We present a selective filter-bank translation lookaside buffer (TLB) system with low power consumpt...
Translation lookaside buffers (TLBs) consume significant power due to their highly associative struc...
Translation Look-aside Buffer (TLB), which is small Content Addressable Memory (CAM) structure used ...
The Translation Look-aside Buffer (TLB), a content addressable memory, consumes significant power du...
This paper presents the results of a simulation-based study of various translation lookaside buffer ...
[[abstract]]The conventional private translation lookaside buffer (TLB) design in a multiprocessor s...
Lowering active power dissipation is increasingly important for battery powered embedded microproces...
“Translation lookaside buffer” (TLB) caches virtual to physical address translation information and ...
The thesis deals with circuit-level aspects of CMOS buffer SRAMs where the data throughput rate is a...
International audience—This work demonstrates that a set of commercial and scale-out applications ex...
Translation Lookaside Buffers (TLBs) are critical to overall system performance. Much past research ...
The need for energy efficiency continues to grow for many classes of processors, including those for...
Abstract—The translation look aside buffer (TLB) improves the performance of systems by caching the ...
In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found th...
Address translation using the Translation Lookaside Buffer (TLB) consumes as much as 16 % of the chi...