Parents (Total: 15)

The searched file hash is included in 15 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileSize	504468
MD5	9E3033229103DD0DB927C6F1D4CC6469
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	4A527944099874DA9DE09F66F61EBC6DC0A2ADE9
SHA-256	799FDE89F6BBB24E6849634F3A09050DE59A3FCFBB542F79107F730344B2C573

Key	Value
FileSize	453360
MD5	1E8CB788147BC02294112E5E986F0A2B
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	B140F5C9A085FF10980187FB08D752EB86106245
SHA-256	DC53DC7637CB0466F4264223FA5647E09873BE4DCE8BA656B805E57DE48DF86F

Key	Value
FileSize	496576
MD5	18C28121984EDBFD4CAC1242B801EAD4
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	E086FB5F8807A93F6D2BEF5E09967F204F7091F8
SHA-256	8599F6E9461537A67CFCE037CB7786380D811C6DDA4BEC60870744A71C932FDB

Key	Value
FileSize	512632
MD5	DA277DFA4F08892A3FFB698447912465
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	B73A9DAB372107D5994F6391037FAE21C3CE6127
SHA-256	CB8C655967E1B22838E0D192F47EEFD0CE3843A0A71B88C39FA382A90150EC52

Key	Value
FileSize	415036
MD5	66517245956123B7627D657F67244E2B
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	35B6B9D0380D537EE831D00CA3A752F5907083F5
SHA-256	9C5969B7F126EED0ADFA0CC656B024BD04EAFA29B23013EE35D2D2127603A59C

Key	Value
FileSize	421468
MD5	EB1F1DF086EC3F262390BE70D4E2BE5B
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	2FE7D75471DD3BB9E8E978D41C2B71C443289307
SHA-256	FA8B51879ABFCED4BC51F823420557C321706FDA9FC1707190A4CF3A973715DC

Key	Value
FileSize	444280
MD5	A4993FD72F7D4C871325B0DE48E53778
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.12-1+b1
SHA-1	24A9E1E41A63AA46005597EA39A68E1930F5EAF3
SHA-256	BB2453A093CA6C370076696B9DC4B0DA5D11471595CB6CB7B244C0CB90CB4972

Key	Value
FileSize	401860
MD5	CFE9D974CAC2FFEA40AF766E6F5B6748
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	669913525C5B5D39225CCF5B0152CBBDE38E78CB
SHA-256	BEE1DEF39930385E236A33C91B59AB46F541876CB0E249A2AA4A38B0EB51FBD2

Key	Value
FileSize	492108
MD5	476AB4770721745317A486358BCA939E
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.12-1+b1
SHA-1	3140FF9777D9365CB3FE7A6B80F5F53130B224E5
SHA-256	981C967C9ED49ED38D37FAA8B3274C4FB44A9D277D96A9ADED55D14452269913

Key	Value
FileSize	411416
MD5	3BF12DBFFA85C2D1B7A372345C5096FD
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.12-1+b1
SHA-1	6D83831BB413229150034D10FED6D9ABE1D500A7
SHA-256	415AC355431FFA7A8C6F24D04E5E856EB57EB46EC53A188EF38DE050FA39BE77

Key	Value
FileSize	392408
MD5	D3B88CE3066CD2A6F1B90D5560D3571B
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	5AE65C9AA7AA3D2DB0DE9B11A91B8D4CFE22CCB0
SHA-256	390CB4882209459C73D3A81C74B7A5596749DC77586B7129A0E727C4E40FBB22

Key	Value
FileSize	429340
MD5	68735F34A012E6FB5A0AE05FC4B1BCA3
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	E099CFDF3B6EF8F0CE5FC060FCAC243F645C2C55
SHA-256	D5B0C6E7378DC394E0F86C4418E330F1818F9E7B9CF9A189F2C1E5D1DD170FB5

Key	Value
FileSize	475688
MD5	A6161F0091CD42AB3872813721750A0B
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.10-2
SHA-1	63BC06CAAE3E21E06C8C539B48D9E63BD8C55F3E
SHA-256	854372609BFFBCBBD990AAFD43807E5D5C742C69B83069D233399A934D859597

Key	Value
FileSize	409700
MD5	25420D74353FF43A84C7B29B8D120C40
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.12-1+b1
SHA-1	05A7B383B375E67B252AAB369F62E36D0B74A443
SHA-256	30A7A67B3E62B695DCE94B2DE6377D1E95EAE37228924FD940C06E40A6DBB3FC

Key	Value
FileSize	528912
MD5	6ABF18B6860B7830374709060654EE13
PackageDescription	Spin-adapted DMRG for ab initio quantum chemistry chemps2 is a scientific library which contains a spin-adapted implementation of the density matrix renormalization group (DMRG) for ab initio quantum chemistry. This wavefunction method allows one to obtain numerical accuracy in active spaces beyond the capabilities of full configuration interaction (FCI), and allows one to extract the 2-, 3-, and 4-particle reduced density matrices (2-, 3- and 4-RDM) of the active space. . For general active spaces up to 40 electrons in 40 orbitals can be handled with DMRG, and for one-dimensional active spaces up to 100 electrons in 100 orbitals. The 2-RDM of these active spaces can also be easily extracted, while the 3- and 4-RDM are limited to about 28 orbitals. . When the active space size becomes prohibitively expensive for FCI, DMRG can be used to replace the FCI solver in the complete active space self consistent field (CASSCF) method and the corresponding complete active space second order perturbation theory (CASPT2). The corresponding methods are called DMRG-SCF and DMRG-CASPT2, respectively. For DMRG-SCF the active space 2-RDM is required, and for DMRG-CASPT2 the active space 4-RDM.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libchemps2-3
PackageSection	libs
PackageVersion	1.8.12-1+b1
SHA-1	4E60F82D9A944C62F8255D9025AE7073D7A74494
SHA-256	CC0A62DDB7E2D170F613E6F50A036AC213BA6FDCBC662773AC7712AD3B438134