EViews 10 - Studentversion versions & prices


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The specialist in the field of econometrics! EViews is a powerful software in the field of econometric modelling. EViews provides model selection and model validation techniques as well as simulation capabilities. Thanks to its outstanding features EViews is one of the most widely used programs in the field of econometrics. With EViews you quickly and efficiently process your data, generate forecasts and high quality tables and graphs, allowing in this way an impressive visualization of your results. Accordingly, EViews has a dominant position among the econometric software packages for decades.

Key-Features of EViews:

  • Estimates, forecasts and statistical analyses
  • Equations estimation method for time series (AR, ARCH, GARCH etc. ), cross-tabs, etc.
  • Hypothesis testing
  • Stochastic Simulation (Monte Carlo Simulation etc.)
  • Statistical and dynamic forecasts
  • Data management via a powerful object-oriented interface: Automatic conversion of frequencies , support for Excel 2007 formats and ASCII import files from the FRED database, interaction with R and MATLAB programming, more than 4 million observations per series

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EViews - Forecasting in the Econometric Sector

EViews offers academic researchers, corporations, government agencies, and students access to powerful statistical, forecasting, and modeling tools through an innovative, easy-to-use object-oriented interface.

Its combination of power and ease-of-use make EViews the ideal package for anyone who works with time series, cross-section, or longitudinal data. With EViews, you can quickly and efficiently manage your data, perform econometric and statistical analysis, generate forecasts or model simulations, and produce high quality graphs and tables for publication or inclusion in other applications.

Differences of the Studentversion

The EViews Student Version license restricts use to a single machine by a single user. The user must be a currently enrolled student or currently employed faculty member. Note specifically that the Student Version is not licensed for use on public access computers. The use of the Student Version requires product activation/registration. The Student Version License will expire two years after first use, and the Student Version will no longer run two years after the first activation.

In addition, while the EViews Student Version offers most of the capabilities of our flagship EViews software, in keeping with the targeted classroom use, the following restrictions are imposed:

  • EViews Student Version places "soft" capacity restrictions on the amount of data that you may save. While you may use EViews Student Version to work with and analyze data of virtually any size, datasets which exceed the soft limits (1,500 observations per series, 15,000 total observations, 60 objects) may not be saved nor exported.
  • Programming capabilities and batch mode processing are not supported. Note that this restriction means that EViews Add-ins and User Objects may not be used. Similarly COM and the Excel Add-in are not supported.
  • X-11, X-12, X-13, and Tramo/Seats X-11 seasonal adjustment, solving model objects with more than 10 equations, storing EViews objects to databases, database auto-search, and redirection of print output to text or RTF files are not supported.
  • The Mac version does not support saving of graphics to .PNG and .JPG formats, or using OLE during copy and paste operations.

EViews Student Lite Version

With the new EViews Student Lite Version, Students are now able to recieve a free EViews Studentversion with 1 year run-time. Professors can now design a whole class or curriculum around EViews, free of charge! To be able to run the software a network connection is required. Furthermore the software has to be in use once every 7 days.

An overview of the features and functions of EViews Student Lite can be seen in the Feature-List.

Students can download this free license on the producers website:

EViews – an Econometric Tool

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.


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. 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.

Dockable Command and Capture Windows
The EViews command and capture windows are dockable, floatable, and hideable. Dockable and hideable windows allow you to move frequently used windows out of the way while keeping them close at hand.

Multi-Graph Slideshow
EViews makes viewing multi-graphs easier via the introduction of a graph slideshow, giving you a much better overview When working with multiple graphs in a single graph frame.

Multi-Graph Slideshow Zoom-In-Function
The zoom-in function enables you to view more details of individual graphs within your slideshow. You can also page through the individual graphs.

EViews user interface now provides dockable elements and a capture window for even an even better overview With the Multi-Graph slideshow working with multiple graphs in a single graph frame is easy and suitable! The zoom-in function within the slideshow enables you to view the more detailed data of your graphs

Mixed Graph Types
EViews offers an entirely new interface for mixing graph types, allowing greater flexibility in choosing combinations of graph types to show on the same graph.

Now you can produce forecasts directly from an estimated VAR object by updating the Forecast dialog box. This now eliminates the need to first make an EViews model object from the VAR and then solve the model.

Dickey-Fuller Test
EViews now supports the computation of modified Dickey-Fuller tests which allow for levels and trends that differ across a single break date.

Mixed Graph Types gives you flexibility while working mith combinations of graph types in a single graph. Now EViews enables the production of forecasts directly out of VAR objects The Dickey-Fuller Test in EViews

Further Information:

EViews Software Updates & Patches

EViews offers a wide range of free minor updates and patches for their software. Those are available for the versions 7, 8 and the current version 9 of the software. Furthermore you can download several whitepapers, data and third party data interfaces.

Goto EViews Website

System Requirements in EViews Student

Further Requirements
  • VGA, super VGA, or compatible Monitor
  • CD-ROM
Operating System* Windows 2000, Windows 2003,
Windows XP (32bit or 64bit), Windows Vista (32bit or 64bit),
Windows Server 2008 (32bit or 64bit), Windows 7 (32bit or 64bit),
Windows 8 (32bit or 64bit), Windows Server 2012 (32bit or 64bit)
Minimum CPU Pentium
Min. RAM 64 MB for Windows 2000
256 MB Windows XP
512 MB Windows Vista or Windows 7
Disk Space 270 MB of available hard disk space for the EViews executable, supporting files, full documentation, and example files

*EViews can run on a MAC operating system by using a virtual mashine.

Functions of EViews Student

Please notice the restrictions of the Studentversion listed in the productdetails!


EV10 Standard

EV10 Student Version

EV9.5 Student Version Lite

Reading/Importing Workfile Limits




Observations per Series


120 million


Observation Totals




Object Totals




Workfile Page Limit








Saving/Exporting Workfile Limits




Observations per Series




Observation Totals




Objects Totals




Duration of Use


2 yrs

1 yrs

Model Equation Limits




Requires internet connection




EViews 10 offers a extensive array of powerful features for data handling, statistics and econometric analysis, forecasting and simulation, data presentation, and programming. While we can't possibly list everything, the following list offers a glimpse at the important EViews features:

Basic Data Handling

  • Numeric, alphanumeric (string), and date series; value labels.
  • Extensive library of operators and statistical, mathematical, date and string functions.
  • Powerful language for expression handling and transforming existing data using operators and functions.
  • Samples and sample objects facilitate processing on subsets of data.
  • Support for complex data structures including regular dated data, irregular dated data, cross-section data with observation identifiers, dated, and undated panel data.
  • Multi-page workfiles.
  • EViews native, disk-based databases provide powerful query features and integration with EViews workfiles.
  • Convert data between EViews and various spreadsheet, statistical, and database formats, including (but not limited to): Microsoft Access® and Excel® files (including .XSLX and .XLSM), Gauss
    Dataset files, SAS® Transport files, SPSS native and portable files, Stata
    files, raw formatted ASCII text or binary files, HTML, or ODBC databases
    and queries (ODBC support is provided only in the Enterprise Edition).
  • OLE support for linking EViews output, including tables and graphs, to other packages, including Microsoft Excel®, Word® and Powerpoint®.
  • OLEDB support for reading EViews workfiles and databases using OLEDB-aware clients or custom programs.
  • Support for FRED® (Federal Reserve Economic Data) databases. Enterprise Edition support for Global Insight DRIPro and DRIBase, Haver Analytics® DLX®, FAME, EcoWin, Bloomberg, EIA, CEIC, Datastream, FactSet, and Moody’s databases.
  • The EViews Microsoft Excel® Add-in allows you to link or import data from EViews workfiles and databases from within Excel.
  • Drag-and-drop support for reading data; simply drop files into EViews for automatic conversion and linking of foreign data into EViews workfile format.
  • Powerful tools for creating new workfile pages from values and dates in existing series.
  • Match merge, join, append, subset, resize, sort, and reshape (stack and unstack) workfiles.
  • Easy-to-use automatic frequency conversion when copying or linking data between pages of different frequency.
  • Frequency conversion and match merging support dynamic updating whenever underlying data change.
  • Auto-updating formula series that are automatically recalculated whenever underlying data change.
  • Easy-to-use frequency conversion: simply copy or link data between pages of different frequency.
  • Tools for resampling and random number generation for simulation. Random number generation for 18 different distribution functions using three different random number generators.
  • Support for cloud drive access, allowing you to open and save file directly to Dropbox, OneDrive, Google Drive and Box accounts.

Time Series Data Handling

  • Integrated support for handling dates and time series data (both regular and irregular).
  • Support for common regular frequency data (Annual, Semi-annual, Quarterly, Monthly, Bimonthly, Fortnight, Ten-day, Weekly, Daily - 5 day week, Daily - 7 day week).
  • Support for high-frequency (intraday) data, allowing for hours, minutes, and seconds frequencies. In addition, there are a number of less commonly encountered regular frequencies, including Multi-year, Bimonthly, Fortnight, Ten-Day, and Daily with an arbitrary range of days of the week.
  • Specialized time series functions and operators: lags, differences, log-differences, moving averages, etc.
  • Frequency conversion: various high-to-low and low-to-high methods.
  • Exponential smoothing: single, double, Holt-Winters, and ETS smoothing.
  • Built-in tools for whitening regression.
  • Hodrick-Prescott filtering.
  • Band-pass (frequency) filtering: Baxter-King, Christiano-Fitzgerald fixed length and full sample asymmetric filters.
  • Seasonal adjustment: Census X-13, X-12-ARIMA, Tramo/Seats, moving average.
  • Interpolation to fill in missing values within a series: Linear, Log-Linear, Catmull-Rom Spline, Cardinal Spline.



  • Basic data summaries; by-group summaries.
  • Tests of equality: t-tests, ANOVA (balanced and unbalanced, with or without heteroskedastic variances.), Wilcoxon, Mann-Whitney, Median Chi-square, Kruskal-Wallis, van der Waerden, F-test, Siegel-Tukey, Bartlett, Levene, Brown-Forsythe.
  • One-way tabulation; cross-tabulation with measures of association (Phi Coefficient, Cramer’s V, Contingency Coefficient) and independence testing (Pearson Chi-Square, Likelihood Ratio G^2).
  • Covariance and correlation analysis including Pearson, Spearman rank-order, Kendall’s tau-a and tau-b and partial analysis.
  • Principal components analysis including scree plots, biplots and loading plots, and weighted component score calculations.
  • Factor analysis allowing computation of measures of association (including covariance and correlation), uniqueness estimates, factor loading estimates and factor scores, as well as performing estimation diagnostics and factor rotation using one of over 30 different orthogonal and oblique methods.
  • Empirical Distribution Function (EDF) Tests for the Normal, Exponential, Extreme value, Logistic, Chi-square, Weibull, or Gamma distributions (Kolmogorov-Smirnov, Lilliefors, Cramer-von Mises, Anderson-Darling, Watson).
  • Histograms, Frequency Polygons, Edge Frequency Polygons, Average Shifted Histograms, CDF-survivor-quantile, Quantile-Quantile, kernel density, fitted theoretical distributions, boxplots.
  • Scatterplots with parametric and non-parametric regression lines (LOWESS, local polynomial), kernel regression (Nadaraya-Watson, local linear, local polynomial)., or confidence ellipses.

Time Series

  • Autocorrelation, partial autocorrelation, cross-correlation, Q-statistics.
  • Granger causality tests, including panel Granger causality.
  • Unit root tests: Augmented Dickey-Fuller, GLS transformed Dickey-Fuller, Phillips-Perron, KPSS, Eliot-Richardson-Stock Point Optimal, Ng-Perron, as well as tests for unit roots with breakpoints.
  • Cointegration tests: Johansen, Engle-Granger, Phillips-Ouliaris, Park added variables, and Hansen stability.
  • Independence tests: Brock, Dechert, Scheinkman and LeBaron
  • Variance ratio tests: Lo and MacKinlay, Kim wild bootstrap, Wright's rank, rank-score and sign-tests. Wald and multiple comparison variance ratio tests (Richardson and Smith, Chow and Denning).
  • Long-run variance and covariance calculation: symmetric or or one-sided long-run covariances using nonparametric kernel (Newey-West 1987, Andrews 1991), parametric VARHAC (Den Haan and Levin 1997), and prewhitened kernel (Andrews and Monahan 1992) methods. In addition, EViews supports Andrews (1991) and Newey-West (1994) automatic bandwidth selection methods for kernel estimators, and information criteria based lag length selection methods for VARHAC and prewhitening estimation.

Panel and Pool

  • By-group and by-period statistics and testing.
  • Unit root tests: Levin-Lin-Chu, Breitung, Im-Pesaran-Shin, Fisher, Hadri.
  • Cointegration tests: Pedroni, Kao, Maddala and Wu.
  • Panel within series covariances and principal components.
  • Dumitrescu-Hurlin (2012) panel causality tests.
  • Cross-section dependence tests.



  • Linear and nonlinear ordinary least squares (multiple regression).
  • Linear regression with PDLs on any number of independent variables.
  • Robust regression.
  • Analytic derivatives for nonlinear estimation.
  • Weighted least squares.
  • White and Newey-West robust standard errors. HAC standard errors may be computed using nonparametric kernel, parametric VARHAC, and prewhitened kernel methods, and allow for Andrews and Newey-West automatic bandwidth selection methods for kernel estimators, and information criteria based lag length selection methods for VARHAC and prewhitening estimation.
  • Linear quantile regression and least absolute deviations (LAD), including both Huber’s Sandwich and bootstrapping covariance calculations.
  • Stepwise regression with seven different selection procedures.
  • Threshold regression including TAR and SETAR.


  • Linear models with autoregressive moving average, seasonal autoregressive, and seasonal moving average errors.
  • Nonlinear models with AR and SAR specifications.
  • Estimation using the backcasting method of Box and Jenkins, conditional least squares, ML or GLS.
  • Fractionally integrated ARFIMA models.

Instrumental Variables and GMM

  • Linear and nonlinear two-stage least squares/instrumental variables (2SLS/IV) and Generalized Method of Moments (GMM) estimation.
  • Linear and nonlinear 2SLS/IV estimation with AR and SAR errors.
  • Limited Information Maximum Likelihood (LIML) and K-class estimation.
  • Wide range of GMM weighting matrix specifications (White, HAC, User-provided) with control over weight matrix iteration.
  • GMM estimation options include continuously updating estimation (CUE), and a host of new standard error options, including Windmeijer standard errors.
  • IV/GMM specific diagnostics include Instrument Orthogonality Test, a Regressor Endogeneity Test, a Weak Instrument Test, and a GMM specific breakpoint test.


  • GARCH(p,q), EGARCH, TARCH, Component GARCH, Power ARCH, Integrated GARCH.
  • The linear or nonlinear mean equation may include ARCH and ARMA terms; both the mean and variance equations allow for exogenous variables.
  • Normal, Student’s t, and Generalized Error Distributions.
  • Bollerslev-Wooldridge robust standard errors.
  • In- and out-of sample forecasts of the conditional variance and mean, and permanent components.

Limited Dependent Variable Models

  • Binary Logit, Probit, and Gompit (Extreme Value).
  • Ordered Logit, Probit, and Gompit (Extreme Value).
  • Censored and truncated models with normal, logistic, and extreme value errors (Tobit, etc.).
  • Count models with Poisson, negative binomial, and quasi-maximum likelihood (QML) specifications.
  • Heckman Selection models.
  • Huber/White robust standard errors.
  • Count models support generalized linear model or QML standard errors.
  • Hosmer-Lemeshow and Andrews Goodness-of-Fit testing for binary models.
  • Easily save results (including generalized residuals and gradients) to new EViews objects for further analysis.
  • General GLM estimation engine may be used to estimate several of these models, with the option to include robust covariances.

Panel Data/Pooled Time Series, Cross-Sectional Data

  • Linear and nonlinear estimation with additive cross-section and period fixed or random effects.
  • Choice of quadratic unbiased estimators (QUEs) for component variances in random effects models: Swamy-Arora, Wallace-Hussain, Wansbeek-Kapteyn.
  • 2SLS/IV estimation with cross-section and period fixed or random effects.
  • Estimation with AR errors using nonlinear least squares on a transformed specification
  • Generalized least squares, generalized 2SLS/IV estimation, GMM estimation allowing for cross-section or period heteroskedastic and correlated specifications.
  • Linear dynamic panel data estimation using first differences or orthogonal deviations with period-specific predetermined instruments (Arellano-Bond).
  • Panel serial correlation tests (Arellano-Bond).
  • Robust standard error calculations include seven types of robust White and Panel-corrected standard errors (PCSE).
  • Testing of coefficient restrictions, omitted and redundant variables, Hausman test for correlated random effects.
  • Panel unit root tests: Levin-Lin-Chu, Breitung, Im-Pesaran-Shin, Fisher-type tests using ADF and PP tests (Maddala-Wu, Choi), Hadri.
  • Panel cointegration estimation: Fully Modified OLS (FMOLS, Pedroni 2000) or Dynamic Ordinary Least Squares (DOLS, Kao and Chaing 2000, Mark and Sul 2003).
  • Pooled Mean Group (PMG) estimation.

Generalized Linear Models

  • Normal, Poisson, Binomial, Negative Binomial, Gamma, Inverse Gaussian, Exponential Mena, Power Mean, Binomial Squared families.
  • Identity, log, log-complement, logit, probit, log-log, complimentary log-log, inverse, power, power odds ratio, Box-Cox, Box-Cox odds ratio link functions.
  • Prior variance and frequency weighting.
  • Fixed, Pearson Chi-Sq, deviance, and user-specified dispersion specifications. Support for QML estimation and testing.
  • Quadratic Hill Climbing, Newton-Raphson, IRLS - Fisher Scoring, and BHHH estimation algorithms.
  • Ordinary coefficient covariances computed using expected or observed Hessian or the outer product of the gradients. Robust covariance estimates using GLM, HAC, or Huber/White methods.

Single Equation Cointegrating Regression

  • Support for three fully efficient estimation methods, Fully Modified OLS (Phillips and Hansen 1992), Canonical Cointegrating Regression (Park 1992), and Dynamic OLS (Saikkonen 1992, Stock and Watson 1993
  • Engle and Granger (1987) and Phillips and Ouliaris (1990) residual-based tests, Hansen's (1992b) instability test, and Park's (1992) added variables test.
  • Flexible specification of the trend and deterministic regressors in the equation and cointegrating regressors specification.
  • Fully featured estimation of long-run variances for FMOLS and CCR.
  • Automatic or fixed lag selection for DOLS lags and leads and for long-run variance whitening regression.
  • Rescaled OLS and robust standard error calculations for DOLS.

User-specified Maximum Likelihood

  • Use standard EViews series expressions to describe the log likelihood contributions.
  • Examples for multinomial and conditional logit, Box-Cox transformation models, disequilibrium switching models, probit models with heteroskedastic errors, nested logit, Heckman sample selection, and Weibull hazard models.

Systems of Equations


  • Linear and nonlinear estimation.
  • Least squares, 2SLS, equation weighted estimation, Seemingly Unrelated Regression, and Three-Stage Least Squares.
  • GMM with White and HAC weighting matrices.
  • AR estimation using nonlinear least squares on a transformed specification.
  • Full Information Maximum Likelihood (FIML).


  • Estimate structural factorizations in VARs by imposing short- or long-run restrictions.
  • Bayesian VARs.
  • Impulse response functions in various tabular and graphical formats with standard errors calculated analytically or by Monte Carlo methods.
  • Impulse response shocks computed from Cholesky factorization, one-unit or one-standard deviation residuals (ignoring correlations), generalized impulses, structural factorization, or a user-specified vector/matrix form.
  • Impose and test linear restrictions on the cointegrating relations and/or adjustment coefficients in VEC models.
  • View or generate cointegrating relations from estimated VEC models.
  • Extensive diagnostics including: Granger causality tests, joint lag exclusion tests, lag length criteria evaluation, correlograms, autocorrelation, normality and heteroskedasticity testing, cointegration testing, other multivariate diagnostics.

Multivariate ARCH

  • Conditional Constant Correlation (p,q), Diagonal VECH (p,q), Diagonal BEKK (p,q), with asymmetric terms.
  • Extensive parameterization choice for the Diagonal VECH's coefficient matrix.
  • Exogenous variables allowed in the mean and variance equations; nonlinear and AR terms allowed in the mean equations.
  • Bollerslev-Wooldridge robust standard errors.
  • Normal or Student's t multivariate error distribution
  • A choice of analytic or (fast or slow) numeric derivatives. (Analytics derivatives not available for some complex models.)
  • Generate covariance, variance, or correlation in various tabular and graphical formats from estimated ARCH models.

State Space

  • Kalman filter algorithm for estimating user-specified single- and multiequation structural models.
  • Exogenous variables in the state equation and fully parameterized variance specifications.
  • Generate one-step ahead, filtered, or smoothed signals, states, and errors.
  • Examples include time-varying parameter, multivariate ARMA, and quasilikelihood stochastic volatility models.

Testing and Evaluation

See also Estimation and Systems of Equations for additional specialized testing procedures.

  • Actual, fitted, residual plots.
  • Wald tests for linear and nonlinear coefficient restrictions; confidence ellipses showing the joint confidence region of any two functions of estimated parameters.
  • Other coefficient diagnostics: standardized coefficients and coefficient elasticities, confidence intervals, variance inflation factors, coefficient variance decompositions.
  • Omitted and redundant variables LR tests, residual and squared residual correlograms and Q-statistics, residual serial correlation and ARCH LM tests.
  • White, Breusch-Pagan, Godfrey, Harvey and Glejser heteroskedasticity tests.
  • Stability diagnostics: Chow breakpoint and forecast tests, Quandt-Andrews unknown breakpoint test, Bai-Perron breakpoint tests, Ramsey RESET tests, OLS recursive estimation, influence statistics, leverage plots.
  • ARMA equation diagnostics: graphs or tables of the inverse roots of the AR and/or MA characteristic polynomial, compare the theoretical (estimated) autocorrelation pattern with the actual correlation pattern for the structural residuals, display the ARMA impulse response to an innovation shock and the ARMA frequency spectrum.
  • Easily save results (coefficients, coefficient covariance matrices, residuals, gradients, etc.) to EViews objects for further analysis.

Forecasting and Simulation

  • In- or out-of-sample static or dynamic forecasting from estimated equation objects with calculation of the standard error of the forecast.
  • Forecast graphs and in-sample forecast evaluation: RMSE, MAE, MAPE, Theil Inequality Coefficient and proportions
  • State-of-the-art model building tools for multiple equation forecasting and multivariate simulation.
  • Model equations may be entered in text or as links for automatic updating on re-estimation.
  • Display dependency structure or endogenous and exogenous variables of your equations.
  • Gauss-Seidel, Broyden and Newton model solvers for non-stochastic and stochastic simulation. Non-stochastic forward solution solve for model consistent expectations. Stochasitc simulation can use bootstrapped residuals.
  • Solve control problems so that endogenous variable achieves a user-specified target.
  • Sophisticated equation normalization, add factor and override support.
  • Manage and compare multiple solution scenarios involving various sets of assumptions.
  • Built-in model views and procedures display simulation results in graphical or tabular form.

Graphs and Tables

  • Line, dot plot, area, bar, spike, seasonal, pie, xy-line, scatterplots, boxplots, error bar, high-low-open-close, and area band.
  • Powerful, easy-to-use categorical and summary graphs.
  • Auto-updating graphs which update as underlying data change.
  • Observation info and value display when you hover the cursor over a point in the graph.
  • Histograms, average shifted historgrams, frequency polyons, edge frequency polygons, boxplots, kernel density, fitted theoretical distributions, boxplots, CDF, survivor, quantile, quantile-quantile.
  • Scatterplots with any combination parametric and nonparametric kernel (Nadaraya-Watson, local linear, local polynomial) and nearest neighbor (LOWESS) regression lines, or confidence ellipses.
  • Interactive point-and-click or command-based customization.
  • Extensive customization of graph background, frame, legends, axes, scaling, lines, symbols, text, shading, fading, with improved graph template features.
  • Table customization with control over cell font face, size, and color, cell background color and borders, merging, and annotation.
  • Copy-and-paste graphs into other Windows applications, or save graphs as Windows regular or enhanced metafiles, encapsulated PostScript files, bitmaps, GIFs, PNGs or JPGs.
  • Copy-and-paste tables to another application or save to an RTF, HTML, or text file.
  • Manage graphs and tables together in a spool object that lets you display multiple results and analyses in one object

Commands and Programming

  • Object-oriented command language provides access to menu items.
  • Batch execution of commands in program files.
  • Looping and condition branching, subroutine, and macro processing.
  • String and string vector objects for string processing. Extensive library of string and string list functions.
  • Extensive matrix support: matrix manipulation, multiplication, inversion, Kronecker products, eigenvalue solution, and singular value decomposition.

External Interface and Add-Ins

  • EViews COM automation server support so that external programs or scripts can launch or control EViews, transfer data, and execute EViews commands.
  • EViews offers COM Automation client support application for MATLAB® and R servers so that EViews may be used to launch or control the application, transfer data, or execute commands.
  • The EViews Microsoft Excel® Add-in offers a simple interface for fetching and linking from within Microsoft Excel® (2000 and later) to series and matrix objects stored in EViews workfiles and databases.
  • The EViews Add-ins infrastructure offers seamless access to user-defined programs using the standard EViews command, menu, and object interface.
  • Download and install predefined Add-ins from the EViews website.