Result for 2840C92579142A198C8349A0B355CA51031E7624

Query result

Key Value
FileName./usr/share/pmix/help-cli.txt
FileSize2115
MD5F011324993CE4297C8E4DB7912685DEA
SHA-12840C92579142A198C8349A0B355CA51031E7624
SHA-2562D6071EE9F6DA1ECEA5DFB822EF6F5BB390283DB0D9587BA0F7CDBF7B3D07443
SSDEEP48:75G//FzlofwIjYAWK8BieeR+CcCSdTEUe3GQTl:75G//oEAWyZhcTZeG8
TLSHT16E4111A6C64D723919C371C7368E43C0967E6378239A262B38DC4BED2302C36E7970E5
hashlookup:parent-total4
hashlookup:trust70

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Parents (Total: 4)

The searched file hash is included in 4 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
MD5C7DFFF8E1BAFCFD9538A9B80D110029D
PackageArchi586
PackageDescriptionThe Process Management Interface (PMI) has been used for quite some time as a means of exchanging wireup information needed for interprocess communication. Two versions (PMI-1 and PMI-2) have been released as part of the MPICH effort. While PMI-2 demonstrates better scaling properties than its PMI-1 predecessor, attaining rapid launch and wireup of the roughly 1M processes executing across 100k nodes expected for exascale operations remains challenging. PMI Exascale (PMIx) represents an attempt to resolve these questions by providing an extended version of the PMI standard specifically designed to support clusters up to and including exascale sizes. The overall objective of the project is not to branch the existing pseudo-standard definitions - in fact, PMIx fully supports both of the existing PMI-1 and PMI-2 APIs - but rather to (a) augment and extend those APIs to eliminate some current restrictions that impact scalability, and (b) provide a reference implementation of the PMI-server that demonstrates the desired level of scalability.
PackageMaintainereatdirt <eatdirt>
PackageNameopenpmix
PackageRelease1.mga9
PackageVersion4.2.0
SHA-17AAF01CF2F5F62AA395567280343B529724BDF6A
SHA-2562C19EDF1114D2398777B4E235541BD3631C7A23823825B03BCEFB111AFCB137A
Key Value
MD581B8C1B1784507DC633D7EC21BF0B209
PackageArchaarch64
PackageDescriptionThe Process Management Interface (PMI) has been used for quite some time as a means of exchanging wireup information needed for interprocess communication. Two versions (PMI-1 and PMI-2) have been released as part of the MPICH effort. While PMI-2 demonstrates better scaling properties than its PMI-1 predecessor, attaining rapid launch and wireup of the roughly 1M processes executing across 100k nodes expected for exascale operations remains challenging. PMI Exascale (PMIx) represents an attempt to resolve these questions by providing an extended version of the PMI standard specifically designed to support clusters up to and including exascale sizes. The overall objective of the project is not to branch the existing pseudo-standard definitions - in fact, PMIx fully supports both of the existing PMI-1 and PMI-2 APIs - but rather to (a) augment and extend those APIs to eliminate some current restrictions that impact scalability, and (b) provide a reference implementation of the PMI-server that demonstrates the desired level of scalability.
PackageMaintainereatdirt <eatdirt>
PackageNameopenpmix
PackageRelease1.mga9
PackageVersion4.2.0
SHA-13170888A0000C4780DE43C52FA11A75669E0E7CA
SHA-25664D21377AF73C5EC54B7939A0D6FBC89BBF925309A70C8AC82ECA9C902983EE0
Key Value
MD5A82A396A94022F8CA288EE08F16E24D7
PackageArchx86_64
PackageDescriptionThe Process Management Interface (PMI) has been used for quite some time as a means of exchanging wireup information needed for interprocess communication. Two versions (PMI-1 and PMI-2) have been released as part of the MPICH effort. While PMI-2 demonstrates better scaling properties than its PMI-1 predecessor, attaining rapid launch and wireup of the roughly 1M processes executing across 100k nodes expected for exascale operations remains challenging. PMI Exascale (PMIx) represents an attempt to resolve these questions by providing an extended version of the PMI standard specifically designed to support clusters up to and including exascale sizes. The overall objective of the project is not to branch the existing pseudo-standard definitions - in fact, PMIx fully supports both of the existing PMI-1 and PMI-2 APIs - but rather to (a) augment and extend those APIs to eliminate some current restrictions that impact scalability, and (b) provide a reference implementation of the PMI-server that demonstrates the desired level of scalability.
PackageMaintainereatdirt <eatdirt>
PackageNameopenpmix
PackageRelease1.mga9
PackageVersion4.2.0
SHA-15040D749D5C72DF53152694B6F20A3B8D7E19566
SHA-256E345EEEED0B5F2717765C85780AAB42E7D184704B12F4297EE143DFBC43EFF9F
Key Value
MD52167DA5C8AEB4CB637992AFA32126F12
PackageArcharmv7hl
PackageDescriptionThe Process Management Interface (PMI) has been used for quite some time as a means of exchanging wireup information needed for interprocess communication. Two versions (PMI-1 and PMI-2) have been released as part of the MPICH effort. While PMI-2 demonstrates better scaling properties than its PMI-1 predecessor, attaining rapid launch and wireup of the roughly 1M processes executing across 100k nodes expected for exascale operations remains challenging. PMI Exascale (PMIx) represents an attempt to resolve these questions by providing an extended version of the PMI standard specifically designed to support clusters up to and including exascale sizes. The overall objective of the project is not to branch the existing pseudo-standard definitions - in fact, PMIx fully supports both of the existing PMI-1 and PMI-2 APIs - but rather to (a) augment and extend those APIs to eliminate some current restrictions that impact scalability, and (b) provide a reference implementation of the PMI-server that demonstrates the desired level of scalability.
PackageMaintainereatdirt <eatdirt>
PackageNameopenpmix
PackageRelease1.mga9
PackageVersion4.2.0
SHA-10CFE98D19BD3583CDBFCB2126AF2E38E132A258C
SHA-2565E96819A031B9C4739650CDD4014720B12193AFF2CDD4D75DF336E5C04A4B4CA