MPSEnvironment

  • full name: tenpy.networks.mps.MPSEnvironment

  • parent module: tenpy.networks.mps

  • type: class

Inheritance Diagram

Inheritance diagram of tenpy.networks.mps.MPSEnvironment

Methods

MPSEnvironment.__init__(bra, ket[, init_LP, …])

Initialize self.

MPSEnvironment.del_LP(i)

Delete stored part strictly to the left of site i.

MPSEnvironment.del_RP(i)

Delete storde part scrictly to the right of site i.

MPSEnvironment.expectation_value(ops[, …])

Expectation value <bra|ops|ket> of (n-site) operator(s).

MPSEnvironment.full_contraction(i0)

Calculate the overlap by a full contraction of the network.

MPSEnvironment.get_LP(i[, store])

Calculate LP at given site from nearest available one.

MPSEnvironment.get_LP_age(i)

Return number of physical sites in the contractions of get_LP(i).

MPSEnvironment.get_RP(i[, store])

Calculate RP at given site from nearest available one.

MPSEnvironment.get_RP_age(i)

Return number of physical sites in the contractions of get_RP(i).

MPSEnvironment.get_initialization_data()

Return data for (re-)initialization.

MPSEnvironment.init_LP(i)

Build initial left part LP.

MPSEnvironment.init_RP(i)

Build initial right part RP for an MPS/MPOEnvironment.

MPSEnvironment.set_LP(i, LP, age)

Store part to the left of site i.

MPSEnvironment.set_RP(i, RP, age)

Store part to the right of site i.

MPSEnvironment.test_sanity()

Sanity check, raises ValueErrors, if something is wrong.

class tenpy.networks.mps.MPSEnvironment(bra, ket, init_LP=None, init_RP=None, age_LP=0, age_RP=0)[source]

Bases: object

Stores partial contractions of \(<bra|Op|ket>\) for local operators Op.

The network for a contraction \(<bra|Op|ket>\) of a local operator Op, say exemplary at sites i, i+1 looks like:

|     .-----M[0]--- ... --M[1]---M[2]--- ... ->--.
|     |     |             |      |               |
|     |     |             |------|               |
|     LP[0] |             |  Op  |               RP[-1]
|     |     |             |------|               |
|     |     |             |      |               |
|     .-----N[0]*-- ... --N[1]*--N[2]*-- ... -<--.

Of course, we can also calculate the overlap <bra|ket> by using the special case Op = Id.

We use the following label convention (where arrows indicate qconj):

|    .-->- vR           vL ->-.
|    |                        |
|    LP                       RP
|    |                        |
|    .--<- vR*         vL* -<-.

To avoid recalculations of the whole network e.g. in the DMRG sweeps, we store the contractions up to some site index in this class. For bc='finite','segment', the very left and right part LP[0] and RP[-1] are trivial and don’t change, but for bc='infinite' they are might be updated (by inserting another unit cell to the left/right).

The MPS bra and ket have to be in canonical form. All the environments are constructed without the singular values on the open bond. In other words, we contract left-canonical A to the left parts LP and right-canonical B to the right parts RP. Thus, the special case ket=bra should yield identity matrices for LP and RP.

Parameters
  • bra (MPS) – The MPS to project on. Should be given in usual ‘ket’ form; we call conj() on the matrices directly. Stored in place, without making copies. If necessary to match charges, we call gauge_total_charge().

  • ket (MPO | None) – The MPS on which the local operator acts. Stored in place, without making copies. If None, use bra.

  • init_LP (None | Array) – Initial very left part LP. If None, build trivial one with init_LP().

  • init_RP (None | Array) – Initial very right part RP. If None, build trivial one with init_RP().

  • age_LP (int) – The number of physical sites involved into the contraction yielding firstLP.

  • age_RP (int) – The number of physical sites involved into the contraction yielding lastRP.

L

Number of physical sites involved into the Environment, i.e. the least common multiple of bra.L and ket.L.

Type

int

bra, ket

The two MPS for the contraction.

Type

MPS

dtype

The data type.

Type

type

_finite

Whether the boundary conditions of the MPS are finite.

Type

bool

_LP

Left parts of the environment, len L. LP[i] contains the contraction strictly left of site i (or None, if we don’t have it calculated).

Type

list of {None | Array}

_RP

Right parts of the environment, len L. RP[i] contains the contraction strictly right of site i (or None, if we don’t have it calculated).

Type

list of {None | Array}

_LP_age

Used for book-keeping, how large the DMRG system grew: _LP_age[i] stores the number of physical sites invovled into the contraction network which yields self._LP[i].

Type

list of int | None

_RP_age

Used for book-keeping, how large the DMRG system grew: _RP_age[i] stores the number of physical sites invovled into the contraction network which yields self._RP[i].

Type

list of int | None

test_sanity()[source]

Sanity check, raises ValueErrors, if something is wrong.

init_LP(i)[source]

Build initial left part LP.

Parameters

i (int) – Build LP left of site i.

Returns

init_LP – Identity contractible with the vL leg of ket.get_B(i), labels 'vR*', 'vR'.

Return type

Array

init_RP(i)[source]

Build initial right part RP for an MPS/MPOEnvironment.

Parameters

i (int) – Build RP right of site i.

Returns

init_RP – Identity contractible with the vR leg of ket.get_B(i), labels 'vL*', 'vL'.

Return type

Array

get_LP(i, store=True)[source]

Calculate LP at given site from nearest available one.

The returned LP_i corresponds to the following contraction, where the M’s and the N’s are in the ‘A’ form:

|     .-------M[0]--- ... --M[i-1]--->-   'vR'
|     |       |             |
|     LP[0]   |             |
|     |       |             |
|     .-------N[0]*-- ... --N[i-1]*--<-   'vR*'
Parameters
  • i (int) – The returned LP will contain the contraction strictly left of site i.

  • store (bool) – Wheter to store the calculated LP in self (True) or discard them (False).

Returns

LP_i – Contraction of everything left of site i, with labels 'vR*', 'vR' for bra, ket.

Return type

Array

get_RP(i, store=True)[source]

Calculate RP at given site from nearest available one.

The returned RP_i corresponds to the following contraction, where the M’s and the N’s are in the ‘B’ form:

|     'vL'  ->---M[i+1]-- ... --M[L-1]----.
|                |              |         |
|                |              |         RP[-1]
|                |              |         |
|     'vL*' -<---N[i+1]*- ... --N[L-1]*---.
Parameters
  • i (int) – The returned RP will contain the contraction strictly right of site i.

  • store (bool) – Wheter to store the calculated RP in self (True) or discard them (False).

Returns

RP_i – Contraction of everything left of site i, with labels 'vL*', 'vL' for bra, ket.

Return type

Array

get_LP_age(i)[source]

Return number of physical sites in the contractions of get_LP(i).

Might be None.

get_RP_age(i)[source]

Return number of physical sites in the contractions of get_RP(i).

Might be None.

set_LP(i, LP, age)[source]

Store part to the left of site i.

set_RP(i, RP, age)[source]

Store part to the right of site i.

del_LP(i)[source]

Delete stored part strictly to the left of site i.

del_RP(i)[source]

Delete storde part scrictly to the right of site i.

get_initialization_data()[source]

Return data for (re-)initialization.

The returned parameters are collected in a dictionary with the following names.

Returns

  • init_LP, init_RP (Array) – LP on the left of site 0 and RP on the right of site L-1, which can be used as init_LP and init_RP for the initialization of a new environment.

  • age_LP, age_RP (int) – The number of physical sites involved into the contraction yielding init_LP and init_RP, respectively.

full_contraction(i0)[source]

Calculate the overlap by a full contraction of the network.

The full contraction of the environments gives the overlap <bra|ket>, taking into account MPS.norm of both bra and ket. For this purpose, this function contracts get_LP(i0+1, store=False) and get_RP(i0, store=False) with appropriate singular values in between.

Parameters

i0 (int) – Site index.

expectation_value(ops, sites=None, axes=None)[source]

Expectation value <bra|ops|ket> of (n-site) operator(s).

Calculates n-site expectation values of operators sandwiched between bra and ket. For examples the contraction for a two-site operator on site i would look like:

|          .--S--B[i]--B[i+1]--.
|          |     |     |       |
|          |     |-----|       |
|          LP[i] | op  |       RP[i+1]
|          |     |-----|       |
|          |     |     |       |
|          .--S--B*[i]-B*[i+1]-.

Here, the B are taken from ket, the B* from bra. The call structure is the same as for MPS.expectation_value().

Warning

In contrast to MPS.expectation_value(), this funciton does not normalize, thus it also takes into account MPS.norm of both bra and ket.

Parameters
  • ops ((list of) { Array | str }) – The operators, for wich the expectation value should be taken, All operators should all have the same number of legs (namely 2 n). If less than len(sites) operators are given, we repeat them periodically. Strings (like 'Id', 'Sz') are translated into single-site operators defined by sites.

  • sites (list) – List of site indices. Expectation values are evaluated there. If None (default), the entire chain is taken (clipping for finite b.c.)

  • axes (None | (list of str, list of str)) – Two lists of each n leg labels giving the physical legs of the operator used for contraction. The first n legs are contracted with conjugated B, the second n legs with the non-conjugated B. None defaults to (['p'], ['p*']) for single site (n=1), or (['p0', 'p1', ... 'p{n-1}'], ['p0*', 'p1*', .... 'p{n-1}*']) for n > 1.

Returns

exp_vals – Expectation values, exp_vals[i] = <bra|ops[i]|ket>, where ops[i] acts on site(s) j, j+1, ..., j+{n-1} with j=sites[i].

Return type

1D ndarray