In this paper, we report efficient quantum circuits for integer
multiplication using Toom-Cook algorithm. By analysing the recursive tree
structure of the algorithm, we obtained a bound on the count of Toffoli gates
and qubits. These bounds are further improved by employing reversible pebble
games through uncomputing the intermediate results. The asymptotic bounds for
different performance metrics of the proposed quantum circuit are superior to
the prior implementations of multiplier circuits using schoolbook and Karatsuba
algorithms