The RAMpage memory hierarchy is an attempt at devising a comprehensive strategy to address the growing DRAM-CPU speed gap. By moving the main memory up a level to the SRAM currently used to implement the lowest-level cache, a RAMpage system in effect implements a fully associative cache with no hit penalty (in the best case). Ordinary DRAM is relegated to a paging device. This paper shows that even with an aggressive SDRAM conventional main memory (or equivalently the new Direct Rambus design proposed for 1999), a RAMpage hierarchy is over 16% faster than a conventional 2-level cache design, with a highend CPU of a speed likely to be delivered in 1998. Further optimizations of the RAMpage hierarchy, such as context switches on misse...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
This paper presents the architecture of a high-performance intermediate-level memory subsystem. The ...
The memory wall is the predicted situation where improvements to processor speed will be masked by t...
The RAMpage memory hierarchy is an attempt at devising a comprehensive strategy to address the growi...
The RAMpage memory hierarchy addresses the growing concern about the memory wall -- the possibility ...
The RAMpage memory hierarchy is an alternative memory organization which addresses the growing CPU-D...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
The RAMpage hierarchy moves main memory up a level to replace the lowest-level cache by an equivalen...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
This paper explores potential for the RAMpage memory hierarchy to use a microkernel with a small mem...
Abstract This paper explores potential for the RAMpage memory hierarchy to use a microkernel with a ...
This paper is a first look at the value of the RAMpage memory hierarchy to low-energy design. The ap...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
This paper presents the architecture of a high-performance intermediate-level memory subsystem. The ...
The memory wall is the predicted situation where improvements to processor speed will be masked by t...
The RAMpage memory hierarchy is an attempt at devising a comprehensive strategy to address the growi...
The RAMpage memory hierarchy addresses the growing concern about the memory wall -- the possibility ...
The RAMpage memory hierarchy is an alternative memory organization which addresses the growing CPU-D...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
The RAMpage hierarchy moves main memory up a level to replace the lowest-level cache by an equivalen...
The RAMpage memory hierarchy is an alternative to the traditional division between cache and main me...
This paper explores potential for the RAMpage memory hierarchy to use a microkernel with a small mem...
Abstract This paper explores potential for the RAMpage memory hierarchy to use a microkernel with a ...
This paper is a first look at the value of the RAMpage memory hierarchy to low-energy design. The ap...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
This paper presents the architecture of a high-performance intermediate-level memory subsystem. The ...
The memory wall is the predicted situation where improvements to processor speed will be masked by t...