In the framework of the computational tensor network [D. Gross and J. Eisert,
Phys. Rev. Lett. {\bf98}, 220503 (2007)], the quantum computation is performed
in a virtual linear space which is called the correlation space. It was
recently shown [J. M. Cai, W, D\"ur, M. Van den Nest, A. Miyake, and H. J.
Briegel, Phys. Rev. Lett. {\bf103}, 050503 (2009)] that a state in the
correlation space can be downloaded to the real physical space. In this letter,
conversely, we study how to upload a state from a real physical space to the
correlation space being motivated by the virtual-real hybrid quantum
information processing. After showing the impossibility of the cloning of a
state between the real physical space and the correlation space, we propose a
simple teleportation-like method of the upload. Applications of this method
also enable the Gottesman-Chuang gate teleportation trick and the entanglement
swapping in the virtual-real hybrid setting. Furthermore, compared with the
inverse of the downloading method by Cai, et. al., which also works as the
upload, our uploading method has several advantages.Comment: 8 pages, 4 figure