Structuring data for efficient I/O format compress addr.state Data structure by example -row storage Naive structure o You arrange your captors in a sequential order according to the detector geometry Each minute,you create a new "row"of data,with 10K floats representing temperatures given by the captors,in that order row/cal 6/42 S.Ponce-CERN
Structuring data for efficient I/O 6 / 42 S. Ponce - CERN format compress addr state c/c row/col Data structure by example - row storage Naive structure You arrange your captors in a sequential order according to the detector geometry Each minute, you create a new “row” of data, with 10K floats representing temperatures given by the captors, in that order Time (mn) Captor 1 Captor 2 ... Captor c 0 a0 b0 ... z0 1 a1 b1 ... z1 ... ... ... ... ... n an bn ... zn File content a0 b0 ... z0 a1 b1 ... z1 ... an bn ... zn
Structuring data for efficient I/O format compre= addr stat Data structure by example -row storage Naive structure o You arrange your captors in a sequential order according to the detector geometry Each minute,you create a new "row"of data,with 10K floats representing temperatures given by the captors,in that order Time (mn) Captor 1 Captor 2 Captor c 0 a20 bo 20 row/cal 6/42 S.Ponce-CERN
Structuring data for efficient I/O 6 / 42 S. Ponce - CERN format compress addr state c/c row/col Data structure by example - row storage Naive structure You arrange your captors in a sequential order according to the detector geometry Each minute, you create a new “row” of data, with 10K floats representing temperatures given by the captors, in that order Time (mn) Captor 1 Captor 2 ... Captor c 0 a0 b0 ... z0 1 a1 b1 ... z1 ... ... ... ... ... n an bn ... zn File content a0 b0 ... z0 a1 b1 ... z1 ... an bn ... zn
Structuring data for efficient I/O 心format compre= addr.state cc Data structure by example -row storage Naive structure o You arrange your captors in a sequential order according to the detector geometry Each minute,you create a new "row"of data,with 10K floats representing temperatures given by the captors,in that order Time (mn) Captor 1 Captor 2 Captor c ao bo 20 1 a1 b1 21 row/cal 6/42 S.Ponce-CERN
Structuring data for efficient I/O 6 / 42 S. Ponce - CERN format compress addr state c/c row/col Data structure by example - row storage Naive structure You arrange your captors in a sequential order according to the detector geometry Each minute, you create a new “row” of data, with 10K floats representing temperatures given by the captors, in that order Time (mn) Captor 1 Captor 2 ... Captor c 0 a0 b0 ... z0 1 a1 b1 ... z1 ... ... ... ... ... n an bn ... zn File content a0 b0 ... z0 a1 b1 ... z1 ... an bn ... zn
Structuring data for efficient I/O format compre= addr.state Data structure by example -row storage Naive structure o You arrange your captors in a sequential order according to the detector geometry Each minute,you create a new "row"of data,with 10K floats representing temperatures given by the captors,in that order Time (mn) Captor 1 Captor 2 Captor c 0 ao bo 20 1 a1 b1 21 … n an bn Zn row/cal 6/42 S.Ponce-CERN
Structuring data for efficient I/O 6 / 42 S. Ponce - CERN format compress addr state c/c row/col Data structure by example - row storage Naive structure You arrange your captors in a sequential order according to the detector geometry Each minute, you create a new “row” of data, with 10K floats representing temperatures given by the captors, in that order Time (mn) Captor 1 Captor 2 ... Captor c 0 a0 b0 ... z0 1 a1 b1 ... z1 ... ... ... ... ... n an bn ... zn File content a0 b0 ... z0 a1 b1 ... z1 ... an bn ... zn
Structuring data for efficient I/O format compress addr stats c/e Data structure by example -row storage Naive structure o You arrange your captors in a sequential order according to the detector geometry Each minute,you create a new "row"of data,with 10K floats representing temperatures given by the captors,in that order Time (mn) Captor 1 Captor 2 Captor c 0 ao bo 20 1 a1 b1 Z1 n an bn Zn File content a0bo.2oa1b1…z1…anbn.zn o 6/42 S.Ponce-CERN
Structuring data for efficient I/O 6 / 42 S. Ponce - CERN format compress addr state c/c row/col Data structure by example - row storage Naive structure You arrange your captors in a sequential order according to the detector geometry Each minute, you create a new “row” of data, with 10K floats representing temperatures given by the captors, in that order Time (mn) Captor 1 Captor 2 ... Captor c 0 a0 b0 ... z0 1 a1 b1 ... z1 ... ... ... ... ... n an bn ... zn File content a0 b0 ... z0 a1 b1 ... z1 ... an bn ... zn