I ended up converting CSC format from Matlab to CSR using CUSP library as follows.

After getting the matrix `A`

from matlab and I got its `row`

,`col`

and `values`

vectors and I copied them in respective `thrust::host_vector`

created for each of them.

After that I created two `cusp::array1d`

of type `Indices`

and `Values`

as follows.

```
typedef typename cusp::array1d<int,cusp::host_memory>Indices;
typedef typename cusp::array1d<float,cusp::host_memory>Values;
Indices row_indices(rows.begin(),rows.end());
Indices col_indices(cols.begin(),cols.end());
Values Vals(Val.begin(),Val.end());
```

where `rows`

, `cols`

and `Val`

are `thrust::host_vector`

that I got from Matlab.

After that I created a `cusp::coo_matrix_view`

as given below.

```
typedef cusp::coo_matrix_view<Indices,Indices,Values>HostView;
HostView Ah(m,n,NNZa,row_indices,col_indices,Vals);
```

where `m`

,`n`

and `NNZa`

are the parameters that I get from `mex`

functions of sparse matrices.

I copied this view matrix to `cusp::csr_matrix`

in device memory with proper dimensions set as given below.

```
cusp::csr_matrix<int,float,cusp::device_memory>CSR(m,n,NNZa);
CSR = Ah;
```

After that I just copied the three individual content arrays of this CSR matrix back to the host using `thrust::raw_pointer_cast`

where arrays with proper dimension are already `mxCalloc`

ed as given below.

```
cudaMemcpy(Acol,thrust::raw_pointer_cast(&CSR.column_indices[0]),sizeof(int)*(NNZa),cudaMemcpyDeviceToHost);
cudaMemcpy(Aptr,thrust::raw_pointer_cast(&CSR.row_offsets[0]),sizeof(int)*(n+1),cudaMemcpyDeviceToHost);
cudaMemcpy(Aval,thrust::raw_pointer_cast(&CSR.values[0]),sizeof(float)*(NNZa),cudaMemcpyDeviceToHost);
```

Hope this is useful to anyone who is using `CUSP`

with `Matlab`