#TAGSTART DO NOT REMOVE THIS TAG
List of Standard Tests for DMRG++ version 2.0.0
(See Notation in the doc directory)
Tests *with* SU(2) symmetry:
0) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
	INF(100)+7(100)-7(100)-7(100)+7(100)
1) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=2 with 8+8 sites
	INF(60)+7(100)-7(100)-7(100)+7(100)
2) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=2 with 8+8 sites
        INF(100)+7(200)-7(200)-7(200)+7(200) [to calculate correlations]
3) Hubbard Model One Orbital (HuStd-1orb) on a ladder (CubicStd2d) for U=0 with 8+8 sites
	INF(100)+7(200)-7(200)-7(200)+7(200) [to calculate correlations]
4) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
        INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "creation op"
5) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
        INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "identity op"
6) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 V=-0.5 with 30+30 sites.
        INF(226)+29(226)-29(226)-29(226)+29(226) with angularMomentum j=5 (as in the literature)
7) Like test 4 but with many times
8) Like test 5 but with many times
9) Time Evolution
10) Time Evolution
11) Hubbard Ladder
12) Extended hubbard ladder
15) LadderBath without time advancement
###TD 16) Like 2 but with implicit sweep movements
###TD 17) Continuation of 16
###TD 18) Time Evolution at U>0 with 6 site chain
20) Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1 with 16+16 sites
	INF(60)+7(100)-7(100)-7(100)+7(100)
21) Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=2.5 with 8+8 sites
	INF(100)+7(200)-7(200)-7(200)+7(200)
22) Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1.0 with 8+8 sites
	INF(100)+7(200)-7(200)-7(200)+7(200)+7(200)+1(200) [to calculate correlations]
23) Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1.0 with 8+8 sites
        checkpointA
24) Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1.0 with 8+8 sites
        checkpointB
25)  Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=2.5 with 8+8 sites
        INF(100)+7(200)-7(200)-7(200)+7(200) To check the WFT
26) Fig 6(c) of PhysRevB48-10345
28)  Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1.0 with 8 sites
29) S(q,omega) cut at omega=2.0 for Heisenberg Model Spin 1/2 (HeStd-F12) on a chain (CubicStd1d) for J=1.0 with 8 sites
30) Implicit loops
32) TSPSites=[%c]
#37) INVALID Like 29 but with correctionvectorimagonly
#27 to 39 are reserved for Heisenberg spin 1/2
40) Fe-based Superconductors model (HuFeAS-2orb) on a ladder (LadderFeAs) with U=0 J=0 with 4+4 sites
	 INF(60)+7(100)-7(100)-7(100)+7(100)
41) Fe-based Superconductors model (HuFeAS-2orb) on a ladder (LadderFeAs) with U=1 J=1 with 4+4 sites
	INF(60)+7(100)-7(100)-7(100)+7(100)
50) paper40
InternalControlNumber: 40
Walltime (in seconds, approx.): 620
Model: HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? Yes
Succint Description Of Features this test tests: Time Evolution in-situ measurement
Figure* (if any): 2 (b)
Table* (if any): N/A
Page* where more or less this feature is used: 056706-4
[* Refers to published version.]

52) paper40
InternalControlNumber: 40
Walltime (in seconds, approx.): 168
Model: HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? Yes
Succint Description Of Features this test tests: Time Evolution in-situ measurement
Figure* (if any): 3 (b)
Table* (if any): N/A
Page* where more or less this feature is used: 056706-5
[* Refers to published version.]

60) t-J one-Orbital (TjMultiOrb with Orbitals=1) on a chain with t=1 J=1 with 16+16 sites
	 INF(60)+7(100)-7(100)-7(100)+7(100)

61) Q0 and Q1: two sectors
62) t-J one-Orbital (TjMultiOrb with Orbitals=1) on a chain with t=-1.0 J=0.25 with 8 sites
63)  S(q,omega) cut at omega=0.2 for t-J one-Orbital (TjMultiOrb with Orbitals=1) on a chain with t=-1.0 J=0.25 with 8 sites

65) Paper 29, Table 1, column 1
InternalControlNumber: 29
NumberInThisSeries: 0
TemporaryAssignedNumber: N/A
TestNumber: 65
Walltime (in seconds, approx.): 44
Model: HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? No
Succint Description Of Features this test tests: 60-site chain
Figure* (if any): N/A
Table* (if any): 1, column 1
Page* where more or less this feature is used: 2230
[* Refers to published version.]

66) Paper 29, Table 1, column 4
InternalControlNumber: 29
NumberInThisSeries: 1
TemporaryAssignedNumber: N/A
Walltime (in seconds, approx.): 100
Model: HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? No
Succint Description Of Features this test tests: SU(2) j=0
Figure* (if any): N/A
Table* (if any): 1, column 4
Page* where more or less this feature is used: 2230
[* Refers to published version.]

67) Paper 29, Table 1, column 7
InternalControlNumber: 29
NumberInThisSeries: 1
TemporaryAssignedNumber: N/A
Walltime (in seconds, approx.): 120
Model: HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? No
Succint Description Of Features this test tests: SU(2) j=5, vectorwithoffsets
Figure* (if any): N/A
Table* (if any): 1, column 7
Page* where more or less this feature is used: 2230
[* Refers to published version.]

70) ModelHeisenberg2: Jx SxSx - Jy SybarSybar + Jz SzSz
71) Same as 70 but with magnetic field
80) Heisenberg spin 1 with 6 sites
82) Heisenberg spin 1 with 6 sites AnistropyD=4
84) Heisenberg spin 1 with 6 sites J = 0 AnistropyE=4
85) Heisenberg spin 1 with 6 sites J = 0 AnistropyD=AnistropyE=4
86) Heisenberg spin 1 with 6 sites AnistropyD=2.7 AnistropyE=3.1
#87 to 99 are reserved for Heisenberg spin 1
100) same as 0 but without su(2) symmetry
101) same as 1 but without su(2) symmetry
#102) same as 2 but without su(2) symmetry <-- DISABLED DUE TO BUG (SEE GITHUBISSUES)
103) same as 3 but without su(2) symmetry
105) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=6 with 8 sites.
106) A^{-}(q,omega) cut at omega=-1.0 Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=6 with 8 sites.
112) Like 2 but measures while growing environ
113) Like 2 but measures 2 data sets
120) TargetingExpresion: gs
121) TargetingExpression: sums of products from 120
122) TargetingExpression: One time evolution from 120
123) TargetingExpression: Two time evolutions from 120
126) TargetingExpresion with useComplex: gs
127) argetingExpresion with useComplex: from 126
#120 to 149 reserved for TargetingExpresion and related
#150 to 199 reserved for testing the input system
150) Replacement
170) FermionSpinless
172) FermionSpinless with Delta
#170-189 reserved for FermionSpinless
200) Time Evolution preparation ground state
201) Time Evolution proper
250) MultiTargeting
320) Fe-based Superconductors model on a chain
340) A test of the Fe-based Superconductors extended model
###TD 350) Transverse-Field Ising MultiOrb (Using Heisenberg, benchmark)
###TD 351) Transverse-Field Ising MultiOrb 1
###TD 352) Transverse-Field Ising MultiOrb 2
###TD 353) Transverse-Field Ising MultiOrb 3

###TD 355) Transverse-Field Ising 2-LegLadder GS using thin geometry
###TD 356) Transverse-Field Ising 2-LegLadder thin: time dynamics reading Schedule From Input File
###TD 357) Transverse-Field Ising 2-LegLadder GS using fat geometry
###TD 358) Transverse-Field Ising 2-LegLadder fat: time dynamics reading Schedule From Input File

363) paper63
InternalControlNumber: 63
NumberInThisSeries: 0
Walltime (in seconds, approx.): 217
Model: FeAsBasedSc
Do you need to run observe? yes
Do you need to run scripts? yes
Succint Description Of Features this test tests: twositedmrg, ss, onepoint
Figure* (if any): Figure 4
Page* where more or less this feature is used: Page 5
[* Refers to published version.]

410) Postprocessing of time evolution for Hubbard model

467) paper67
InternalControlNumber: 67
DOI: https://dx.doi.org/10.1103/PhysRevB%2E96%2E024520
NumberInThisSeries: 0
Walltime (in seconds, approx.): 44
Model: FeAsBasedSc
Do you need to run observe? yes
Do you need to run scripts? yes
Succint Description Of Features this test tests: Reproduce figure 1 curve for 0 hole
doping (N-0) by doing the fourier transform of the si.sj matrix obtained from
the observe code.
Figure* (if any): Figure 1
Page* where more or less this feature is used: Page 4
[* Refers to published version.]
###TD 470) Interaction-assisted Hopping (Nitin)
501) AddOnSiteHamiltonian= with %t example
#550 -- 599 AKLT
550) AKLT
600) Test on 6-site chain with U=10, standard Hubbard model.
	Tests the density and double occupation of a time vector,
	defined as exp(iHt) h d |gs>, where h a holon and d a doublon.
	This test was checked against Suzuki-Trotter with an independent code.
1000) Tests time evolution with 3 operators, which is more than the holon-doublon case, and
hence non-trivial.
1200) Tj 1 orb with hopping = 1 and J = 0.3 dens = 0.5
1201) Tj 1 orb with hopping = 1 and J = 0.3 and W = -0.4 dens = 0.25
1300) SpinOrbitalModel 
1302) 4 sites one symmetry
1304) 4 sites two symmetries
1306) Spinorbital: (Si.Sj)(Li.Lj)^2
#1301-1400 reserved for SpinOrbitalModel
1500) Figure 1 of METTS paper
InternalControlNumber: 40
Walltime (in seconds, approx.): 430
Model: [as in the Model= line in the input] HubbardOneBand
Do you need to run observe? No
Do you need to run scripts? Yes
Succint Description Of Features this test tests: METTS energy and density
Figure* (if any): 1
Page* where more or less this feature is used: 245130-2
[* Refers to published version.]

#1550) Same as 1500 with Suzuki-Trotter
1600) Kondo example with U=0 V=0 KondoJ = 0 SuperExchange=0 and hopping=1
1601) Kondo example with U=0 V=0 KondoJ = 0 SuperExchange=1 and hopping=0
1610) KondoEx2 with pairing interactions
#1600 to 1699 reserved for Kondo
1800) Ancilla: Entangler Hamiltonian Heisenberg 6 sites
1801) Ancilla: Real      Hamiltonian Heisenberg 6 sites
1810) Ancilla: Entangler Hamiltonian Heisenberg 6 sites Canonical
1811) Ancilla: Real Hamiltonian Heisenberg 6 sites Canonical
1814) Ancilla: Entangler Spin=1
1815) Ancilla: same as 1811 with exponential advance
#1816) Ancilla Spin=1
1817) Same as 15 but periodic
1818) Same as 14 but 8 sites
1819) Ancilla Spin=1
1850) Ancilla canonical: Entangler Hamiltonian t-J 6 sites 
1851) Ancilla canonical: Real      Hamiltonian t-J 6 sites --> Restart from previous
1860) Ancilla canonical: Entangler Hamiltonian t-J 6 sites Canonical
1861) Ancilla canonical: Real      Hamiltonian t-J 6 sites Canonical
#1880) Ancilla grand canonical Hamiltonian t-J 6x2 sites: Entangler
#1881) Ancilla grand canonical Hamiltonian t-J 6x2 sites: restart real
#1852 to 1899 for tj Ancilla Tests
#1900 to 1950 for Hubbard Ancilla Tests
1950) Ancilla entangler, fig 4 of paper
1951) Ancilla real H, fig 4 of paper
1954) Ancilla Hubbard Entangler
1955) Ancilla Hubbard evolution starting from 1954
#1952 to 1999 for Ancilla tests
#2000) First Suzuki-Trotter test. The gs is time-evolved.
#2001) Tests time evolution with 3 operators, which is more than the holon-doublon case, and
#hence non-trivial. (Suzuki-Trotter)
#2004) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
#       INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "creation op" (Suzuk-Trotter)
#2008) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
#        INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "identity op"(Suzuk-Trotter)
#2009) Time Evolution (Suzuki-Trotter)
#2010) Time Evolution (Suzuki-Trotter)
#2015) LadderBath without time advancement (Suzuki-Trotter)
#2018) Time Evolution at U>0 with 6 site chain (Suzuki-Trotter)
2021) Tests time evolution with 3 operators, which is more than the holon-doublon case, and
hence non-trivial. (Krylov)
2024) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
       INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "creation op" (Krylov)
2028) Hubbard Model One Orbital (HuStd-1orb) on a chain (CubicStd1d) for U=1 with 8+8 sites.
        INF(60)+7(100)-7(100)-7(100)+7(100) test for TimeStepTargeting "identity op" (Krylov)
2029) Time Evolution (Krylov)
#2034) Reserved
#2038) Reserved
#2039) Reserved
2040) Time Evolution (Krylov)
2045) LadderBath without time advancement (Krylov)
2048) Time Evolution at U>0 with 6 site chain (Krylov)

#2050) Reserved
#2055) Reserved
#2058) Reserved
#2060) Test on 6-site chain with U=10, standard Hubbard model.
      Tests the density and double occupation of a time vector,
      defined as exp(iHt) h d |gs>, where h a holon and d a doblon (Suzuki-Trotter)
2061) Test on 6-site chain with U=10, standard Hubbard model.
      Tests the density and double occupation of a time vector,
      defined as exp(iHt) h d |gs>, where h a holon and d a doblon (Krylov)

#2062) Reserved
#2070) Time Evolution (Suzuki-Trotter)
2071) Time Evolution (Krylov)
#2072) Reserved
2100) Entangler Phase
2101) Hot Ancilla Phase
2102) CV Phase
#2103-2199 --> Reserved for hot spectra
2300) Graphene
2500) Su3Model
2510) Real version of 2500
2700) Excited > 1
3000) Dynamics: Local Green's function at site 8 for a non-interacting one-band Hubbard model using
correction vector algorithm (type=0).
3001) Dynamics: Local Green's function at site 8 for a non-interacting one-band Hubbard model using
correction vector algorithm (type=1).
3002) Dynamics: Local Green's function at site 8 for a one-band Hubbard model for U=10 using
correction vector algorithm (type=0).
###TD 3003) Dynamics: Local Green's function at site 8 for a one-band Hubbard model for U=10 using
#correction vector algorithm (type=1).
###TD 3004) Dynamics: Non-local Green's function at sites (15,0) for a non-interacting one-band Hubbard model
#using correction vector algorithm (type=0).
###TD 3005) Dynamics: Non-local Green's function at sites (15,0) for a non-interacting one-band Hubbard model
#using correction vector algorithm (type=1).
###TD 3006) Dynamics: Non-local Green's function at sites (15,0) for a non-interacting one-band Hubbard model
#using correction vector algorithm (type=2).
###TD 3007) Dynamics: Non-local Green's function at sites (15,0) for a non-interacting one-band Hubbard model
#using correction vector algorithm (type=3).
###TD 3008) Dynamics: Non-local Green's function at sites (15,0) for a one-band Hubbard model for U=10 using
#correction vector algorithm (type=0).
###TD 3009) Dynamics: Non-local Green's function at sites (15,0) for a one-band Hubbard model for U=10 using
#correction vector algorithm (type=1).
###TD 3010) Dynamics: Non-local Green's function at sites (15,0) for a one-band Hubbard model for U=10 using
#correction vector algorithm (type=2).
###TD 3011) Dynamics: Non-local Green's function at sites (15,0) for a one-band Hubbard model for U=10 using
3020) Correction Vector 1/n: gs
3021) Correction Vector 1/n: starting from 3020
#3100-3299 manyOmegas.cpp
3100) Ground state for manyOmegas
#3101 input dollarized
#3500) Chebyshev test ground state
#3501) ChebyshevTargeting from 3500
#correction vector algorithm (type=3).
3510) Heisenberg chain Szz(q,omega) gs
3511) Chebyshev from 3510 Szz(k, omega) c=0.1 d=1.83004  ./dmrg -f input3511.inp "<gs|sz|P1>,<gs|sz|P2>"
3512) Chebyshev from 3510 Szz(k, omega) c=0.2 d=4.64758  ./dmrg -f input3511.inp "<gs|sz|P1>,<gs|sz|P2>"
3530) t-J chain gs undoped
#3531) Chebyshev from 3530 Szz(k, omega) c=0.07 d=-0.2508063720171  ./dmrg -f input3511.inp "<gs|sz|P1>,<gs|sz|P2>"
3532) Chebyshev from 3530 A-(k, omega) c=0.07 d=-0.2508063720171 ./dmrg -f input3511.inp "<gs|c?0'|P1>,<gs|c?0'|P2>"

#4000) KMH model simple test -->     BROKEN, ISSUE?
#4001) KMH model simple test 8 sites BROKEN, ISSUE?
#4002 to 4099 are hereby reserved for the KMH model.
#4100-4200) <--- reserved for kron
4300) BaFe2S3 FeS two-leg ladder two-orbital Hubbard
4500) HeisenbergAnisotropic

4600) Paper72
InternalControlNumber: 72
DOI:  Will be given when published
NumberInThisSeries: 0
Walltime (in seconds, approx.):
Model: HubbardOneBandExtendedSuper
Do you need to run observe? ???
Do you need to run scripts? yes
Succint Description Of Features this test tests: Ground state for 4601
Figure* (if any):
Page* where more or less this feature is used: Will be given when published
[* Refers to published version.]

4601) Paper72
InternalControlNumber: 72
DOI:  Will be given when published
NumberInThisSeries: 1
Walltime (in seconds, approx.):
Model: HubbardOneBandExtendedSuper
Do you need to run observe? ???
Do you need to run scripts? yes
Succint Description Of Features this test tests: Dynamics for
Figure* (if any):
Page* where more or less this feature is used: Will be given when published
[* Refers to published version.]

4650) HeisenbergMix: spin 1 middle, spin 1/2 on borders

4700) Hubbard Holstein
4710) Hubbard Holstein SSH
4720) Holstein Thin
# 4711 to 4799 reserved for Hubbard Holstein with and without SSH
4800) HubbardOneBandRashbaSOC
4804) RashbaSOC chain with complex
4808) RashbaSOC full geometry with complex
#5000 TOO BIG Hubbard model 1 orbital on a 32x2 ladder with m up to 800.
It has 14 electrons up and 14 electrons down (or 2+2 "holes", 16+16 being
the "half filled" case). U=2
#5010) Takes too long Hubbard model 1 orbital on a 12x12 square with m up to 10000.
#It has 68 electrons up and 68 electrons down (or 4+4 "holes", 72+72 being
#the "half filled" case). U=2
#5020) Small input for performance testing
#5030) Medium input for performance testing
#5040) Large input for performance testing
#5000 to 5499 reserved for performance work
5500) gs for RIXS test
5501) RIXS correction vector
5502) RIXS static
5503) RIXS dynamic with Krylov    starting from 5502
5504) RIXS dynamic with Chebyshev starting from 5502
omega' := (omega − b) /a = c*omega+d
H' := (H − b) /a = c*H+d

a := (E max − E min ) /(2 − ε)
b := (E max + E min ) /2
c :=   1/a = (2 − ε)/(Emax − Emin )
d :=  -b/a = -[(2 − ε)/2]* [(Emax + Emin )/(Emax − Emin )]

epsilon=0.05

For input5500.inp

Emax = 1.45828
Emin = -2.81233

c===> 0.4566
d===> 0.3091
#5505-5599 reserved for RIXS
5600) ./dmrg -f input.inp 'n$.txt' feature GS
5601) ./dmrg -f input.inp 'n$.txt' feature
5700) TargetingCorrection small test
5800) SOC with Jz symmetry Ground State, using "fat site"
5802) SOC test
5810) 3-orbital Hubbard model Ground State, using "fat site"
6000) Kitaev Model Test
6001) Kitaev Model Extended test
6005) Kitaev with magnetic field and fixLegacyBugs
6010) Kitaev with Gammas
#6010) Kitaev
6020) Kitaev with Charge
###TD 6024) same as 6010, but with zeroed SxSy and SySz terms
###TD 6025) same as 6024, but with Kitaev with Gammas Real
6500) Hybrid space-k ladders
6700) FindSymmetrySector= awesome predicate
#7000) Chemical H: Gauge spin
#7001-7500 reserved for ChemicalH
#TAGEND DO NOT REMOVE THIS TAG
