1HPL_pdpanrlT(3) HPL Library Functions HPL_pdpanrlT(3)
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6 HPL_pdpanrlT - Right-looking panel factorization.
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9 #include "hpl.h"
10 void HPL_pdpanrlT( HPL_T_panel * PANEL, const int M, const int N, const
12 int ICOFF, double * WORK );
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15 HPL_pdpanrlT factorizes a panel of columns that is a sub-array of a
16 larger one-dimensional panel A using the Right-looking variant of the
17 usual one-dimensional algorithm. The lower triangular N0-by-N0 upper
18 block of the panel is stored in transpose form.
19 Bi-directional exchange is used to perform the swap::broadcast
21 operations at once for one column in the panel. This results in a
22 lower number of slightly larger messages than usual. On P processes
23 and assuming bi-directional links, the running time of this function
24 can be approximated by (when N is equal to N0):
25 N0 * log_2( P ) * ( lat + ( 2*N0 + 4 ) / bdwth ) +
27 N0^2 * ( M - N0/3 ) * gam2-3
28 where M is the local number of rows of the panel, lat and bdwth are
30 the latency and bandwidth of the network for double precision real
31 words, and gam2-3 is an estimate of the Level 2 and Level 3 BLAS
32 rate of execution. The recursive algorithm allows indeed to almost
33 achieve Level 3 BLAS performance in the panel factorization. On a
34 large number of modern machines, this operation is however latency
35 bound, meaning that its cost can be estimated by only the latency
36 portion N0 * log_2(P) * lat. Mono-directional links will double this
37 communication cost.
38 Note that one iteration of the the main loop is unrolled. The local
40 computation of the absolute value max of the next column is performed
41 just after its update by the current column. This allows to bring the
42 current column only once through cache at each step. The current
43 implementation does not perform any blocking for this sequence of
44 BLAS operations, however the design allows for plugging in an optimal
45 (machine-specific) specialized BLAS-like kernel. This idea has been
46 suggested to us by Fred Gustavson, IBM T.J. Watson Research Center.
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49 PANEL (local input/output) HPL_T_panel *
50 On entry, PANEL points to the data structure containing the
51 panel information.
52 M (local input) const int
54 On entry, M specifies the local number of rows of sub(A).
55 N (local input) const int
57 On entry, N specifies the local number of columns of sub(A).
58 ICOFF (global input) const int
60 On entry, ICOFF specifies the row and column offset of sub(A)
61 in A.
62 WORK (local workspace) double *
64 On entry, WORK is a workarray of size at least 2*(4+2*N0).
65
67 HPL_dlocmax (3), HPL_dlocswpN (3), HPL_dlocswpT (3), HPL_pdmxswp (3),
68 HPL_pdpancrN (3), HPL_pdpancrT (3), HPL_pdpanllN (3), HPL_pdpanllT (3),
69 HPL_pdpanrlN (3).
70HPL 2.2 February 24, 2016 HPL_pdpanrlT(3)