Washington, May 26 : Computers can now run even faster. Researchers have developed two new techniques to help multi-core computer chips boost their performance by 10 to 40 percent.
Multi-core chips are supposed to make our computers run faster. Each core on a chip is its own central processing unit, or computer brain. However, there are things that can slow these cores.
For example, each core needs to retrieve data from memory that is not stored on its chip. There is a limited pathway - or bandwidth - these cores can use to retrieve that off-chip data.
As chips have incorporated more and more cores, the bandwidth has become increasingly congested -- slowing down system performance, reports the journal Proceedings of the National Academy of Sciences.
One of the ways to expedite core performance is called prefetching. Each chip has its own small memory component, called a cache.
In prefetching, the cache predicts what data a core will need in the future and retrieves that data from off-chip memory before the core needs it. Ideally, this improves the core's performance.
But, if the cache's prediction is inaccurate, it unnecessarily clogs the bandwidth while retrieving the wrong data. This actually slows the chip's overall performance.
"The first technique relies on criteria we developed to determine how much bandwidth should be allotted to each core on a chip," says Yan Solihin, associate professor of electrical and computer engineering at North Carolina State University and study co-author.
Researchers use easily-collected data from the hardware counters on each chip to determine which cores need more bandwidth. "By better distributing the bandwidth to the appropriate cores, the criteria are able to maximize system performance," Solihin says, according to a Carolina statement.
"The second technique relies on a set of criteria we developed for determining when prefetching will boost performance and should be utilized," Solihin says, "as well as when prefetching would slow things down and should be avoided."
Utilizing both sets of criteria, the researchers were able to boost multi-core chip performance by 40 percent, compared to multi-core chips that do not prefetch data, and by 10 percent over multi-core chips that always prefetch data.
For example, each core needs to retrieve data from memory that is not stored on its chip. There is a limited pathway - or bandwidth - these cores can use to retrieve that off-chip data.
As chips have incorporated more and more cores, the bandwidth has become increasingly congested -- slowing down system performance, reports the journal Proceedings of the National Academy of Sciences.
One of the ways to expedite core performance is called prefetching. Each chip has its own small memory component, called a cache.
In prefetching, the cache predicts what data a core will need in the future and retrieves that data from off-chip memory before the core needs it. Ideally, this improves the core's performance.
But, if the cache's prediction is inaccurate, it unnecessarily clogs the bandwidth while retrieving the wrong data. This actually slows the chip's overall performance.
"The first technique relies on criteria we developed to determine how much bandwidth should be allotted to each core on a chip," says Yan Solihin, associate professor of electrical and computer engineering at North Carolina State University and study co-author.
Researchers use easily-collected data from the hardware counters on each chip to determine which cores need more bandwidth. "By better distributing the bandwidth to the appropriate cores, the criteria are able to maximize system performance," Solihin says, according to a Carolina statement.
"The second technique relies on a set of criteria we developed for determining when prefetching will boost performance and should be utilized," Solihin says, "as well as when prefetching would slow things down and should be avoided."
Utilizing both sets of criteria, the researchers were able to boost multi-core chip performance by 40 percent, compared to multi-core chips that do not prefetch data, and by 10 percent over multi-core chips that always prefetch data.
source;newkerala
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