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Setting the Standard¡¦ In March of 1994, QMS launched a revolution in econometric software with the release of EViews 1.0, its successor to the popular MicroTSP. Featuring a modern, graphical object-oriented user interface, EViews provided an alternative to antiquated, software design. The combination of power and ease-of-use made EViews an immediate best seller. Now, building upon almost two decades of development, QMS is pleased to announce the release of EViews 4. Designed for the generation of 32-bit Windows operating systems, and featuring major enhancements to both data management and modeling tools, EViews 4 continues to set the standard for econometric and forecasting software... A New Kind of User Interface The goal in designing EViews was to make it both powerful and intuitive. A wide range of statistical and graphical techniques had to be made available without requiring users to memorize complicated command syntax or navigate layers and layers of menus. The solution is an innovative object-oriented user interface. EViews is built around the concept of objects. Series, equations, and systems are just a few examples of objects. Each object has its own window, its own menus, its own procedures, and its own views of its data. Most statistical procedures are simply alternative views of the object. For example, a simple menu choice from a series window changes the display between a spreadsheet, line and bar graphs, a histogram-and-statistics view, a correlogram, and a unit root test. Similarly, an equation window allows you to switch between a display of the equation specification, basic estimation results, the coefficient covariance matrix, graphics depicting the actual, fitted, and residual values for the dependent variable, tables, forecast graphs and evaluations, and more than a dozen diagnostic and hypothesis tests. Naturally, you can cut-and-paste any of these views into your favorite word processor with a simple menu selection. And it's just as easy to exchange data and results with your spreadsheet and database programs. Of course if you don't like cut-and-paste, EViews supports direct file access to Lotus WKS, WK1, and WK3 files, Microsoft Excel XLS files, and Microsoft Windows Metafiles and Enhanced Metafiles. Econometric Tools Of course, programming isn't for everybody. Unlike some other econometric software, there is no reason for most users to learn complicated a complicated command language. EViews' built-in procedures are a mouse-click away and provide the tools most frequently used in practical econometric and forecasting work. Basic Statistics Basic descriptive statistics are easily computed over an entire sample, by categorization based on one or more variables, or by both cross-section and period in pooled data. Hypothesis tests on mean, median and variance may be carried out, including test against specific values, equality between series, or equality within a single series when classified by other variables (which allows you to perform one-way ANOVA).
Graphical presentations of histograms, cumulative distribution, survivor, and quantile plots characterize the distribution of your data. QQ-plots (quantile-quantile plots) compare the distribution of a pair of series, or the distribution of a single series against a variety of theoretical distributions. You can even perform Kolmogorov-Smirnov, Liliefors, Cramer von Mises, and Anderson-Darling tests to see whether your series is normally distributed, or whether it comes from, among others, an exponential, extreme value, logistic, chi-square, Weibull, or gamma distribution. You may provide parameters for the distribution, or EViews will estimate the parameters for you.EViews also calculates kernel density estimates, and produces scatterplots with curve fitting using ordinary, transformation, kernel, and nearest neighbor regression. Unit root tests (ADF and Phillips-Perron), cointegration tests, causality tests, autocorrelation and partial autocorrelation functions, Q-statistics, and cross-correlation functions, let you explore the time series properties of your data. EViews provides random number generators, density functions and cumulative distribution functions for eighteen different distributions. These may be used in generating new series as well as scalar and matrix expressions. Seasonal Adjustment EViews 4 includes support for additive and multiplicative difference seasonal adjustment methods, and provides easy-to-use front-end support for the U.S. Census Bureau's X11 seasonal adjustment program, the newly released Census X12-ARIMA, and Tramo/Seats. Tramo (Time Series Regression with ARIMA Noise, Missing Observations, and Outliers) performs estimation, forecasting, and interpolation of regression models with missing observations and ARIMA errors, in the presence of possibly several types of outliers. Seats (Signal Extraction in ARIMA Time Series) performs an ARIMA-based decomposition of an observed time series into unobserved components. Estimation
In addition to these basic estimators, EViews supports estimation and diagnostics for a variety of advanced models. EViews sophisticated calculus engine computes and displays analytic derivatives for the majority of nonlinear regression specifications.
ARCH models You may estimate a variety of Autoregressive Conditional Heteroskedasticity (ARCH) models. EViews handles GARCH(p,q), EGARCH, TARCH, and Component GARCH specifications. The mean equation of ARCH models may include ARCH and ARMA terms, and both the mean and variance equations allow for exogenous variables. Generalized Method of Moments EViews supports GMM estimation for both cross-section and time series data (single and multiple equation). Weighting options include the White covariance matrix for cross-section data and a variety of HAC covariance matrices for time series data. The HAC options include prewhitening, either quadratic or Bartlett kernels, and fixed, Andrews, or Newey-West bandwith selection methods. Limited Dependent Variables EViews estimates models for binary, ordered, censored and truncated (Tobit), and count data. The binary, ordered, censored, and truncated models may be estimated for likelihood functions based on normal, logistic, and extreme value errors. Count models may use Poisson, negative binomial, and quasi-maximum likelihood (QML) specifications. EViews optionally reports generalized linear model or QML standard errors. System Estimation EViews supports estimation of both linear and nonlinear systems of equations by OLS, two-stage least squares, seemingly unrelated regression, three-stage least squares, GMM, and FIML. The system may contain cross equation restrictions and autoregressive errors of any order. Vector Autoregression Vector Autoregression and Vector Error Correction models are easily estimated. Once estimated, you may examine the impulse response functions and variance decompositions for the VAR or VEC. VAR impulse response functions and decompositions feature standard errors calculated either analytically or by monte carlo methods (analytic not available for decompositions) and may be displayed in a variety of graphical and tabular formats.  You may impose and test linear restrictions on the cointegrating relations and/or adjustment coefficients. EViews VARs also along you to estimate Structural factorizations (VARs) by imposing short-run (Sims 1986) or long-run (Blanchard and Quah 1989) restrictions.Over-identifying restrictions may be tested using the LR statistic reported by EViews. VAR views allow you to examine the structure of your specification. With a few clicks of the mouse, you can display the inverse roots of the characteristic AR polynomial, perform Granger causality and joint lag exclusion tests, evaluate various lag length criteria, view correlograms and autocorrelations, or perform various multivariate residual bsaed diagnostics. Pooled Time Series-Cross Section EViews features a Pool object designed to facilitate working with pooled, time series-cross section data. Unbalanced or balanced data sets with unlimited length time series and up to several hundred cross sections are easily analyzed. Estimation options include fixed and random effect specifications for the intercept, weighted least squares, and seemingly unrelated regression, plus all of the estimators allowed for EViews system objects. Coefficients on specific variables (including AR terms) can be constrained to be identical, or allowed to differ across the cross-section.  State-Space Models A sspace object allows estimation of a wide variety of single- and multi-equation models dynamic structural time-series models using the Kalman Filter algorithm. Among other things, you can use the sspace object to estimate random and time-varying coefficient models and ML ARMA specifications. Sophisticated procs and views give you access to powerful filtering and smoothing tools so that you can view or generate one-step ahead, filtered, smoothed signals, states, errors, etc. EViews' built-in forecasting procedures also provide easy-to-use tools for in- and out-of-sample forecasting using n-step ahead or smoothed values. User-Defined Maximum Likelihood Estimation
 Specification Evaluation and Diagnostics Once an equation or system is estimated, you can use EViews to perform a wide array of specification evaluation and diagnostic tests. These tests include Wald tests of linear and nonlinear coefficient restrictions, likelihood ratio and F-tests for omitted variables, Lagrange multiplier tests for serial correlation and ARCH, White heteroskedasticity tests, Ramsey RESET tests, and Chow forecast and breakpoint tests.  Additional tests exist for specific models. As with other object views, all hypothesis tests can be generated by a simple menu selection from an equation or system window. Forecasting and Simulation With EViews, you need not concern yourself about the complexities of making forecasts. You can concentrate on the substance of the forecasting problem. For single equation models, just select a menu item and EViews will compute a static or dynamic forecast with optional forecast standard errors and a graph of the 95 percent forecast confidence. Successful forecasting equations can be saved in your workfile or stored in an EViews database.  Simultaneous Equation Solution and Simulation The model object, which is used for simultaneous equation simulation and solution provides the features most commonly requested by model builders. Variable dependencies and the block structure of the model¡¯s equations are displayed with a simple mouse click. Reference equations by name and the model is updated automatically whenever the equation is reestimated. You can even use the model to manage multiple solution scenarios for comparing simulation results under various sets of assumptions. The EViews model object makes it easy to perform non-stochastic or stochastic simulation using either Gauss-Seidel or Newton solvers. Built-in views and procedures display simulation results in graphical or tabular form. Forward solution (currently unavailable with stochastic solution) allows you to solve for model consistent expectations. EViews provides sophisticated add factor support, including equation normalization. You can even solve simple control problems where the values for an exogenous control variable are found so that an endogenous variable achieves a user specified target.
Data Management Powerful modeling tools are only useful if you can easily access your data. EViews provides the widest range of data management tools available in any econometric software. Extensive Function Library EViews 4 contains an extensive library of functions for working with and transforming your data. In addition to standard mathematical and trigonometric functions, EViews provides functions for computing descriptive statistics, specialized date and time series data functions, functions for working with a variety of statistical distributions, as well as special functions. Sophisticated Expression Handling
When you forecast using an equation with an expression for the dependent variable, EViews will (if possible) allow you to forecast the underlying dependent variable and will adjust the estimated confidence interval accordingly. For example, if the dependent variable is specified as LOG(Y), you can elect to forecast either the log or the level of Y, and to compute the appropriate, possibly asymmetric, confidence interval. EViews Databases  EViews 4 has built-in database features. An EViews database is a collection of EViews objects maintained in a single file on disk. It need not be loaded into memory in order to access an object inside it, and the objects in the database are not restricted to being of a single frequency or range. EViews databases support powerful query features which can be used to search through the database for a particular series or select a set of series with a common property.
Database Support for RATS, TSP, GiveWin, and Aremos TSD Files EViews 4 supports RATS, TSP, PcGive, GiveWin, and Aremos TSD files through the same interface provided for EViews databases. For example you can open a RATS file and copy-and-paste series into an EViews workfile or database. All EViews database operations, reading, writing, querying, etc., can be applied to these file formats. Enterprise Edition Support for FAME, DRIBase, and Haver Analytics Databases As part of the EViews Enterprise Edition (an extra cost option over EViews Standard Edition) support is provided for proprietary data formats of commercial data and database vendors. You can access FAME local and server based databases, Standard and Poors DRIBase databases, and native Haver Analytics DBX databases. The same, easy to use, EViews database interface has been extended to these data formats.
Remote Data Access In addition to local databases, EViews has the ability to query and access data from remote databases via the Internet. Initially, remote access is only available to databases hosted by Standard & Poor¡¯s/DRI. In the future, software will be available from QMS that will make it possible for anyone to host a remote database. Frequency Conversion When you import data from a database, they are automatically converted to the frequency of your current project. EViews 4 has options for frequency conversion, as well as support for the conversion of daily and weekly data. Series may be assigned a preferred conversion method, allowing you to use different methods for different series without having to specify the conversion method every time a series is accessed. File Import and Export EViews provides extensive read/write support for foreign files including ASCII text files, Excel .XLS files, Lotus .WK1 and .WK3 files and TSD files. In EViews 4, ASCII reads have been extended so you can precisely specify which characters should be treated as delimiters, and what text should be treated as missing values. Reading of Excel files has also been extended to allow reading from particular named sheets, and support has been added for Excel 8 (Excel 97) spreadsheets. Graphics
Customizing a graph is as simple as dragging graphic elements around the screen. Want to change the characteristics of a legend or a text label? Just click on it and your options are immediately presented in easy to understand dialogs.
You can easily incorporate your customized graphs into other Windows applications using copy-and-paste, or by exporting Windows metafiles. Windows On-Line Help Need help? EViews provides a full Windows-style help system with index and search capabilities. In addition, the entire EViews User¡¯s Guide and EViews Command and Programming Reference are provided in Adobe PDF format (along with Adobe Acrobat Reader). Both manuals are extensively hypertext linked, making it easy to find the information you need.  A Powerful Programming Language Point-and-click is fine, but you feel more comfortable entering commands. Besides, you need programming tools and capabili-ties. Well, EViews is really two programs in one. In addition to its state-of-the-art windowing interface, EViews includes a powerful command language that allows access to all menu items. Modeled loosely after the BASIC programming language but with new object-oriented extensions and matrix handling capabilities.EViews allows you to enter individual commands for immediate or batch execution. Your programs can make use of advanced capabilities such as looping and condition branching, as well as subroutine and macro processing. Matrix primitives, from simple multiplication and inversion, to more advanced procedures for Kronecker products, eigenvector solution, and singular value decomposition, provide you with the tools you need for solving most complex problems. Data Capacity and System Requirements EViews 4 is a 32-bit program that takes full advantage of the new features of Windows 95/98/Me and Windows NT 4.0/2000. Since EViews makes use of new operating system features such as Explorer-style file dialogs, it will not run under Windows 3.1 even with the Win32s extensions. In the move to full 32-bit support we have increased both the speed and data capacity the program. Statistical operations are 2 to 5 times faster than EViews 2.0 on identical hardware. With sufficient memory in your computer, you can tackle problems involving millions of observations. The only fundamental capacity limit is that no single data series or matrix may contain more than 4 million observations. And because we take full advantage of 32-bit Windows¡¯ virtual memory, you can work with data sets that exceed your system¡¯s physical memory. |
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EViews includes
a wide range of single and multiple equation estimation techniques for both time series and cross section data.
Basic estimators include ordinary least squares (multiple regression), two-stage least squares and nonlinear least
squares. Weighted estimation is available with all of these techniques. Specifications may include polynomial lag
structures on any number of independent variables.
EViews 4
features an object (the LogL) for handling user-specified maximum likelihood estimation problems. Simply use standard
EViews expressions to describe the log likelihood contribution of each observation in your sample, and EViews will
do the rest...
EViews¡¯
powerful tools for expression handling mean that you can use expressions virtually anyplace you would use a series.
You don't have to create new variables to work with the logarithm of Y, the moving average of W, or the ratio of
X to Y (or any other valid expression). Instead, you can use the expression in compute descriptive statistics,
as part of an equation or model specification, or in constructing graphs.
Series
contained in EViews databases may be accessed and used by EViews procedures without being fetched into workfiles.
Automatic search capabilities allow you to specify a list of databases to be searched when a series you need cannot
be found in the current workfile.
EViews supports
a wide range of graph types including line graphs, bar graphs, pie charts, scatter diagrams, mixed line-bar graphs,
high-low graphs, and scatterplots. A variety of options give you control over line types, color, border characteristics,
headings, shading and scaling, including logarithmic scaling and dual scale graphs. Legends are automatically created
and you can add labels in any scalable Windows fonts anywhere on your graph. Any number of graphs can be combined
in a single graph for presentation.