A Japanese team has increased the speed of parallel computing by using a
genetic algorithm to schedule processing tasks. Tatsuhiro Tsuchiya and
colleagues at Osaka University have designed their evolutionary algorithm to
allow only the “fittest” task sequences—the computer equivalents of
chromosomes—to survive (Microprocessors and Microsystems, vol 22,
p 197). The surviving sequences become the tasks executed by each processor node
in an array. Using task duplication, so that the task can be executed as soon as
a node is free, the algorithm performed as well as—and sometimes
better—than DSH, a common non-genetic task-scheduling system.
More from 91av
Explore the latest news, articles and features
Popular articles
Trending 91av articles
1
We have figured out a new way to send messages into the past
2
Human heads have changed shape a lot in the past 100 years
3
Is consciousness more fundamental to reality than quantum physics?
4
Why the keto diet could be a revolutionary way to treat mental illness
5
The 4 biggest myths about hydration, according to an expert
6
100-year-old assumption about the universe may soon be overturned
7
Cancer is increasing in young people and we still don't know why
8
Your oral microbiome could affect your weight, liver and diabetes risk
9
We may finally have a cure for many different autoimmune conditions
10
The brain's cleaning system can be boosted to rid Alzheimer's proteins
