Laplace, Z and discrete- and continuous-time Fourier transforms in any number of dimensions for applications in signal processing, communications, circuit design and more.Built-in support for more than 4,500 units–including free-form linguistic entry, conversions and dimensional consistency checking across graphics and numeric and symbolic calculations ».Integrated functionality for designing and analyzing linear and nonlinear control systems ».Out-of-core technology to scale up performance for very large 2D and 3D volumetric images.Integrated 3D surface and volume rendering.Advanced 2D and 3D volumetric imaging processing, including pixel operations, local filtering and morphology ».Broad support for random processes, including parametric processes, finite Markov processes, queueing processes, time series processes and stochastic differential equation processes.A complete set of window functions, commonly used for design of finite impulse response (FIR) filters, with additional applications in spectral and spatial analysis.Powerful signal processing capabilities, including digital and analog filter design, filtering and signal analysis, that can be applied to audio, image or other data ».The Wolfram Language includes thousands of built-in functions for computation, modeling, visualization, development and deployment »Įlectrical engineering specific capabilities: Matlab is significantly slower for many of these operations Other computation systems make you analyze your equations manually to determine which function to apply-for example, to solve a differential equation in Matlab, you must correctly choose among ode45, ode23, ode113, ode15s, bvp4c, pdepe and so on, or risk wrong answersĮxcellent speeds for many different types of computations, including dense and sparse linear algebra operations Highly optimized superfunctions analyze your equations and automatically select the right algorithms to get accurate results quickly-sometimes switching mid-calculation for further optimization Matlab's built-in routines only handle numeric calculations Symbolic as well as numeric calculations to manipulate numbers, equations or pieces of code, improving accuracy or creating reusable models Matlab and other systems that rely on finite-precision numerics can cause serious errors due to lack of precision Wolfram Data Framework Semantic framework for real-world data.Does your current tool set have these advantages?įree-form linguistic input produces immediate results without the need for syntaxīuilt-in functionality for solving local and global optimization problems, both numeric and symbolic, including constrained nonlinear optimizationĪutomatic, interactive interface construction to visualize your simulations, examine model sensitivity to parameter changes and moreĪutomated precision control and arbitrary-precision numerics produce highly accurate results Wolfram Universal Deployment System Instant deployment across cloud, desktop, mobile, and more. Wolfram Community forum discussion about Expanding Capabilities of CellularAutomaton Function. Wolfram Knowledgebase Curated computable knowledge powering Wolfram|Alpha. Stay on top of important topics and build connections by joining Wolfram Community groups relevant to your interests. Finance, Statistics & Business Analysisįor the newest resources, visit Wolfram Repositories and Archives »Įxtending Mathematica's XML Capabilities with J/Link.Java and XML are a natural match, and there is a considerable body of XML functionality available to Java programmers. Because of J/Link, all these capabilities are also available to Mathematica programmers. This talk will examine some ways to link the extensive Java XML APIs into Mathematica's own XML-handling capabilities. Wolfram Alpha as a search engine is strong on mathematical operations, as expected, however it is very weak and I mean 'very', with regard to information acquisition. We will see how to convert Mathematica XML expressions into Java DOM objects and vice-versa, how to perform SAX parsing of XML data with event logic coded entirely in Mathematica, how to perform XSLT transformations and XPath queries on XML data directly from the Mathematica environment, and how to query and process XML data available on the internet, such as finanical data. This seams to be in terms of data location. I wanted to retrieve data on the phenomena below and perform some calculations on the data. Alpha Pro could not locate the data for the.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |