bosonSampler: Function for independently sampling from the Boson Sampling...
In BosonSampling: Classical Boson Sampling
bosonSampler R Documentation
Function for independently sampling from the Boson Sampling distribution
Description
The function implements the Boson Sampling algorithm defined in Clifford and Clifford (2017) https://arxiv.org/abs/1706.01260
Usage
bosonSampler(A, sampleSize, perm = FALSE)
Arguments
A
the first n columns of an (m x m) random unitary matrix,
see randomUnitary
sampleSize
the number of independent sample values required for given A
perm
TRUE if the permanents and pmfs of each sample value are required
Details
Let the matrix A be the first n columns of an (m x m) random unitary matrix, then
X <- bosonSampler(A, sampleSize = N, perm = TRUE) provides X$values, X$perms and X$pmfs,
The component X$values is an (n x N) matrix with columns that are
independent sample values from the Boson Sampling distribution.
Each sample value is a vector of n integer-valued output modes in random order. The elements of the vector can be sorted in
increasing order to provide a multiset representation of the sample value.
The outputs X$perms and X$pmfs are
vectors of the permanents and probability mass functions (pmfs) associated with the sample values.
The permanent associated with a sample value v = (v_1,...,v_n) is the permanent of an (n x n) matrix constructed with rows
v_1,...,v_n of A. Note the constructed matrix, M, may have repeated rows since v_1,...,v_n
are not necessarily distinct.
The pmf is calculated as Mod(pM)^2/prod(factorial(tabulate(c)) where pM is the permanent of M.
Value
X = bosonSampler(A, sampleSize = N, perm = TRUE) provides X$values, X$perms and X$pmfs. See Details.
References
Clifford, P. and Clifford, R. (2017) The Classical Complexity of Boson Sampling, https://arxiv.org/abs/1706.01260
Examples
set.seed(7)
n <- 20 # number of photons
m <- 200 # number of output modes
A <- randomUnitary(m)[,1:n]
# sample of output vectors
valueList <- bosonSampler(A, sampleSize = 10)$values
valueList
# sample of output multisets
apply(valueList,2, sort)
#
set.seed(7)
n <- 12 # number of photons
m <- 30 # number of output modes
A <- randomUnitary(m)[,1:n]
# sample of output vectors
valueList = bosonSampler(A, sampleSize = 1000)$values
# Compare frequency of output modes at different
# positions in the output vectors
matplot(1:m,apply(valueList,1,tabulate), pch =20, t = "p",
xlab = "output modes", ylab = "frequency")
BosonSampling documentation built on Oct. 11, 2023, 1:07 a.m.
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| bosonSampler | R Documentation |
Function for independently sampling from the Boson Sampling distribution
Description
The function implements the Boson Sampling algorithm defined in Clifford and Clifford (2017) https://arxiv.org/abs/1706.01260
Usage
bosonSampler(A, sampleSize, perm = FALSE)
Arguments
A |
the first |
sampleSize |
the number of independent sample values required for given |
perm |
TRUE if the permanents and pmfs of each sample value are required |
Details
Let the matrix A be the first n columns of an (m x m) random unitary matrix, then
X <- bosonSampler(A, sampleSize = N, perm = TRUE) provides X$values, X$perms and X$pmfs,
The component X$values is an (n x N) matrix with columns that are
independent sample values from the Boson Sampling distribution.
Each sample value is a vector of n integer-valued output modes in random order. The elements of the vector can be sorted in
increasing order to provide a multiset representation of the sample value.
The outputs X$perms and X$pmfs are
vectors of the permanents and probability mass functions (pmfs) associated with the sample values.
The permanent associated with a sample value v = (v_1,...,v_n) is the permanent of an (n x n) matrix constructed with rows
v_1,...,v_n of A. Note the constructed matrix, M, may have repeated rows since v_1,...,v_n
are not necessarily distinct.
The pmf is calculated as Mod(pM)^2/prod(factorial(tabulate(c)) where pM is the permanent of M.
Value
X = bosonSampler(A, sampleSize = N, perm = TRUE) provides X$values, X$perms and X$pmfs. See Details.
References
Clifford, P. and Clifford, R. (2017) The Classical Complexity of Boson Sampling, https://arxiv.org/abs/1706.01260
Examples
set.seed(7)
n <- 20 # number of photons
m <- 200 # number of output modes
A <- randomUnitary(m)[,1:n]
# sample of output vectors
valueList <- bosonSampler(A, sampleSize = 10)$values
valueList
# sample of output multisets
apply(valueList,2, sort)
#
set.seed(7)
n <- 12 # number of photons
m <- 30 # number of output modes
A <- randomUnitary(m)[,1:n]
# sample of output vectors
valueList = bosonSampler(A, sampleSize = 1000)$values
# Compare frequency of output modes at different
# positions in the output vectors
matplot(1:m,apply(valueList,1,tabulate), pch =20, t = "p",
xlab = "output modes", ylab = "frequency")
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