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Topic: can network speed be directly derived from difficulty? (Read 1718 times)

legendary
Activity: 1072
Merit: 1181
1 "hash" is double-SHA256 applied to a block header. Because some parts can be pre-calculated, and some parts ignored for our application, it is in reality equivalent to processing approximately 1.9 SHA256 blocks.

There is an easy relation between difficulty and block rate. For each block the network finds, on average 2^48/65535 (=4295032833)  times the difficulty hashes have been performed.

There is a relation between the difficulty and the network hash rate as well, assuming you know how often a block is found. Assuming there is one block every 10 minutes (as the network aims for), there are difficulty*2^48/65535/600 hashes done per second (=7158388*difficulty). If there are more blocks found than 1 per ten minutes, the rate is proportionally higher.

Currently (at difficulty 244139), this means that each block requires on average a whopping 1048587089228612 hashes to be performed.
legendary
Activity: 2506
Merit: 1010
if difficulty is at 420,000 ... can i derive ghash of ENTIRE network some how??

Quote
So total network power, in hash/sec, is then
(difficulty * 2^32) / 600

Where 600 is a smoothed approximation of last-block-interval-in-seconds.
- http://forum.bitcoin.org/?topic=402.msg10162#msg10162

An estimate of the current Network Hashrate is available from:
  - http://bitcoinwatch.com

Graphs of these levels are here:
  - http://bitcoin.sipa.be

  

newbie
Activity: 11
Merit: 0
say.. average a miner can get 1.8 ghash per KWH.

if difficulty is at 420,000 ... can i derive ghash of ENTIRE network some how??

bitcoinchart say 3,500,000 mhash... how they calculate?

1 difficulty = 8 mhash?

also, what EXACTLY is a bitcoin "hash" ? 1 "hash" is actually 2 x AEC256 ?

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