
QUANTUM COMPUTING: AN OVERVIEW
... each object separately. In a quantum world, however, only a very tiny fraction of all possible states can be described by such separate specifications. In other words, most quantum states cannot be described by such individual specifications, thereby being called “entangled”. Why and how these two fea ...
... each object separately. In a quantum world, however, only a very tiny fraction of all possible states can be described by such separate specifications. In other words, most quantum states cannot be described by such individual specifications, thereby being called “entangled”. Why and how these two fea ...
Giesecke-Final-ternary-gates
... The number of qudits is free to choose, as well as the number of ancilla qudits. Inputs A to Z are qudits that control the multiplexer at the static qudit, and can also be manipulated by other qudits. The structures shown in Fig. 2.4a and Fig. 2.8 are the most desirable and capable to build quantum ...
... The number of qudits is free to choose, as well as the number of ancilla qudits. Inputs A to Z are qudits that control the multiplexer at the static qudit, and can also be manipulated by other qudits. The structures shown in Fig. 2.4a and Fig. 2.8 are the most desirable and capable to build quantum ...
Toward a scalable, silicon-based quantum computing architecture
... We present optimized layouts of quantum error-correction circuits based upon quantum bits embedded in silicon. We discover two interesting results from our quantum layouts. First, the recursive nature of quantum error correction results in an H-tree-structured circuit that requires long-distance com ...
... We present optimized layouts of quantum error-correction circuits based upon quantum bits embedded in silicon. We discover two interesting results from our quantum layouts. First, the recursive nature of quantum error correction results in an H-tree-structured circuit that requires long-distance com ...
Quantum Structures
... relativistic formulations, to the concept of the Dirac sea of electrons, to a break between classical mechanics and quantum mechanics, to quantum field theory at a point, etc. We shall review the literature of the time showing what prominent physicists thought concerning these problems, as well as g ...
... relativistic formulations, to the concept of the Dirac sea of electrons, to a break between classical mechanics and quantum mechanics, to quantum field theory at a point, etc. We shall review the literature of the time showing what prominent physicists thought concerning these problems, as well as g ...
arXiv:hep-th/9703136v1 19 Mar 1997
... various mathematical fields, and vice versa string theory has been influenced by recent mathematical development. In the last two years we have witnessed a marked change in pace in all this. In a confluence of a wide variety of ideas, many of them dating back to the 70s and 80s, the structure, inter ...
... various mathematical fields, and vice versa string theory has been influenced by recent mathematical development. In the last two years we have witnessed a marked change in pace in all this. In a confluence of a wide variety of ideas, many of them dating back to the 70s and 80s, the structure, inter ...
Entanglement and its Role in Shor`s Algorithm
... simulate even if its qubits are not entangled, and it is not known whether such states may be used to perform efficient quantum computation. Parker and Plenio [7] have presented a version of Shor’s algorithm using only one pure qubit, the rest may start in any mixed state. They found that entangleme ...
... simulate even if its qubits are not entangled, and it is not known whether such states may be used to perform efficient quantum computation. Parker and Plenio [7] have presented a version of Shor’s algorithm using only one pure qubit, the rest may start in any mixed state. They found that entangleme ...
Quantum Lambda Calculus - Department of Mathematics and
... Another interesting aspect of higher-order quantum computation is the interplay between classical objects and quantum objects in a higherorder context. A priori, quantum computation operates on two distinct kinds of data: classical data, which can be read, written, duplicated, and discarded as usual ...
... Another interesting aspect of higher-order quantum computation is the interplay between classical objects and quantum objects in a higherorder context. A priori, quantum computation operates on two distinct kinds of data: classical data, which can be read, written, duplicated, and discarded as usual ...