jm + smp   1

MICA: A Holistic Approach To Fast In-Memory Key-Value Storage [paper]
Very interesting new approach to building a scalable in-memory K/V store. As Rajiv Kurian notes on the mechanical-sympathy list:

'The basic idea is that each core is responsible for a portion of the key-space and requests are forwarded to the right core, avoiding multiple-writer scenarios. This is opposed to designs like memcache which uses locks and shared memory.

Some of the things I found interesting: The single writer design is taken to an extreme. Clients assist the partitioning of requests, by calculating hashes before submitting GET requests. It uses Intel DPDK instead of sockets to forward packets to the right core, without processing the packet on any core. Each core is paired with a dedicated RX/TX queue. The design for a lossy cache is simple but interesting. It does things like replacing a hash slot (instead of chaining) etc. to take advantage of the lossy nature of caches. There is a lossless design too. A bunch of tricks to optimize for memory performance. This includes pre-allocation, design of the hash indexes, prefetching tricks etc. There are some other concurrency tricks that were interesting. Handling dangling pointers was one of them.'

Source code here: https://github.com/efficient/mica
mica  in-memory  memory  ram  key-value-stores  storage  smp  dpdk  multicore  memcached  concurrency 
april 2014 by jm

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