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Decoding the Genome: Serious Infrastructure
Roland Piquepaille writes "The Wellcome Trust Sanger Institute is one of the largest genomics data centers in the world. In "The Hum and the Genome," the Scientist writes about the IT infrastructure needed to handle the avalanche of data that researchers have to analyze. With its 2,000 processors and its 300 terabytes of storage, the data center uses today about 0.75 megawatts (MW) of power at a cost of 140,000 per year (about $170K). But the data center will need more than a petabyte of storage within three years, and its yearly electricity bill will reach 500,000 (more than $600K) for about 1.4 MW, enough to power more than a thousand homes. The original article gets all the facts, but this summary contains all the essential numbers."
TANSTAFL. This post seems drawn into the spinning power meter dials and not caring about what the computer is. If you want a lot of power, you need a lot of power. Chip scale efficiency could reduce their bill, but its a research foundation crunching numbers all day. If they need more money they just ask their contributors politly.
How's this stack up with google's server farm bill.
Bacardi + slashdot = negative karma.
There are 23 chromosomes in the human genome. That chromosomes are a pair of the genes. I understand that each gene is one of four DNA molecules called A,G,C & T. There 16 combinations of those mlecules and I can map those out with a pencil and paper, I can produce all 23 sets with desktop computing power.
There are 23 chromosomal pairs. Each half of each pair contains the same (more or less) information - you could think of it as a genetic back-up system. (Except for the XY chromosomal pair in males). At the start, one chromosome is maternal, the other is paternal. But over time, they actually swap bits around until there's a mixture.
Each chromosome contains one immensely long strand of DNA, a double-helix. This double helix is NOT redundant, only one of the two strands contains genetic information: The other strand is only there to make it easier to copy the helix.
The human genome is approximately 3 billion bases long, and it takes three bases (known as a codon) to code one amino acid. 4 x 4 x 4 = 64 possible amino acids. (Altho they only actually code 20 or so). Then you have to filter out all the codons that don't actually code anything, and are discarded before the gene is transcribed into a protein.
NOW do the math!
So.. it has come to this