30,620 research outputs found

    Approaching Polyglot Programming: What Can We Learn from Bilingualism Studies?

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    Hamiltonian Simulation by Qubitization

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    We present the problem of approximating the time-evolution operator e−iH^te^{-i\hat{H}t} to error Ï”\epsilon, where the Hamiltonian H^=(⟹G∣⊗I^)U^(∣G⟩⊗I^)\hat{H}=(\langle G|\otimes\hat{\mathcal{I}})\hat{U}(|G\rangle\otimes\hat{\mathcal{I}}) is the projection of a unitary oracle U^\hat{U} onto the state ∣G⟩|G\rangle created by another unitary oracle. Our algorithm solves this with a query complexity O(t+log⁥(1/Ï”))\mathcal{O}\big(t+\log({1/\epsilon})\big) to both oracles that is optimal with respect to all parameters in both the asymptotic and non-asymptotic regime, and also with low overhead, using at most two additional ancilla qubits. This approach to Hamiltonian simulation subsumes important prior art considering Hamiltonians which are dd-sparse or a linear combination of unitaries, leading to significant improvements in space and gate complexity, such as a quadratic speed-up for precision simulations. It also motivates useful new instances, such as where H^\hat{H} is a density matrix. A key technical result is `qubitization', which uses the controlled version of these oracles to embed any H^\hat{H} in an invariant SU(2)\text{SU}(2) subspace. A large class of operator functions of H^\hat{H} can then be computed with optimal query complexity, of which e−iH^te^{-i\hat{H}t} is a special case.Comment: 23 pages, 1 figure; v2: updated notation; v3: accepted versio

    Relativistic Spheres

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    By analyzing the Einstein's equations for the static sphere, we find that there exists a non-singular static configuration whose radius can approach its corresponding horizon size arbitrarily.Comment: 8 pages revtex, 1 ps figur

    Use of Machine Learning for Partial Discharge Discrimination

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    Partial discharge (PD) measurements are an important tool for assessing the condition of power equipment. Different sources of PD have different effects on the insulation performance of power apparatus. Therefore, discrimination between PD sources is of great interest to both system utilities and equipment manufacturers. This paper investigates the use of a wide bandwidth PD on-line measurement system to facilitate automatic PD source identification. Three artificial PD models were used to simulate typical PD sources which may exist within power systems. Wavelet analysis was applied to pre-process the obtained measurement data. This data was then processed using correlation analysis to cluster the discharges into different groups. A machine learning technique, namely the support vector machine (SVM) was then used to identify between the different PD sources. The SVM is trained to differentiate between the inherent features of each discharge source signal. Laboratory experiments indicate that this approach is applicable for use with field measurement data

    Approximating vector quantisation by transformation and scalar quantisation

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    Power load forecasting

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    For the electric power factory, the power load forecasting problem, including load forecasting and consumption predicting, is crucial to work planning. According to the predicting time, it can be divided into long-term forecasting, mid-term forecasting, short-term forecasting and ultra-short-term forecasting. The long-term and mid-term forecasting are mainly used for macro control, and their forecasting time arrange are from one year to ten years and from one month to twelve months respectively. The short-term forecasting which prediction time is from one day to seven days is used in generators macroeconomic control, power exchange plan and some other areas. Predicting the situation in next 24 hours is named as the ultra-short-term forecasting which is used for failure prediction, emergency treatment and frequency control. In general, the forecast accuracy is different for different prediction time. The longer is the time, the lower accurate is the prediction. As the unique power supplier in Huizhou (China), Huizhou Electric Power wants to know the solution to the problems: 1. Prediction of the total electrical consumption and the peak load of the city in 2006 based on the economy development and the feature of the city. 2. Monthly prediction of the consumption and peak load in 2006. 3. Daily prediction of the consumption and peak load from July 10th to 16th in 2006. 4. Prediction of the load every 15 minutes of July 10th. 5. Real-time forecasting which means to amend the existing load prediction for next 15 minute
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