ALTA Software Features

Click to see a picture of the software interface...ReliaSoft's ALTA software provides an intuitive and user-friendly way to utilize tremendously complex and powerful mathematical models for quantitative accelerated life testing data analysis. The software provides the life-stress relationships required to analyze accelerated life test data with up to 8 simultaneous stress types, where stress is constant or varies with time.

ALTA's powerful quantitative accelerated life testing data analysis capabilities can help your organization to Reduce Test Times, Speed Time-to-Market and Lower Development and Warranty Costs.

Quantitative Accelerated Life Testing (QALT)

In quantitative accelerated life testing, the stresses that cause failure are accelerated under controlled conditions to cause the product to fail in a shorter period of time without introducing failure mechanisms that would not occur under normal use. You can then apply mathematical models to extrapolate to use-level conditions and use this analysis to estimate reliability, mean life, failure rate and other performance measures for the product. This powerful analysis capability can help to significantly reduce test times and produce more robust designs.

Choose the Tool That's Right for You

ALTA provides full support for the analysis of data obtained from quantitative accelerated life tests. The software is available in two versions:

Key features and capabilities are listed below. Some are available only in ALTA PRO. [See Comparison]

Complete Array of QALT Analysis Capabilities

Data Types and Stress Types: ALTA's data entry spreadsheets support complete, right censored (suspended), interval or left censored data, entered individually and in groups. ALTA Standard provides models for one or two stress types. ALTA PRO offers models that can analyze up to 8 stress types. 

Life-Stress Relationship Models: ALTA supports data analysis with the Weibull, lognormal and exponential distributions combined with the following life-stress relationships: Arrhenius, Eyring, Inverse Power Law, Temperature-Humidity and Temperature-Nonthermal. ALTA PRO also includes more advanced multi-stress and time-dependent stress models, including Generalized Eyring, Proportional Hazards, General Log-Linear and Cumulative Damage.

Time-Dependent Stress Profiles: In ALTA PRO, you can define stress profiles that vary with time, such as step-stress, ramp-stress, etc.

Parameter Estimation and Calculated Results: ALTA uses Maximum Likelihood Estimation (MLE) for parameter estimation. The QCP and Function Wizard quickly return calculated reliability results (such as reliability given time, mean life, acceleration factor, BX% life, etc.) based on the data analysis and your inputs. When applicable, ALTA also provides confidence bounds for parameters, calculated results and plots.

Plots and Automated Reports: The software automatically generates a complete array of reliability plots, with customizable settings. Plots can be annotated and exported as graphic files for use in your reports and presentations. Automated report generation is also available.

Accelerated Test Planning Utility: ALTA offers a choice of methods for designing an effective one-stress or two-stress accelerated life test plan. Based on your inputs about the expected failure behavior and available test time, the utility recommends the stress levels and the most effective allocation of units to be tested at each level. 

Accelerated Destructive Degradation Analysis: In Version 11, ALTA now includes an accelerated destructive degradation analysis folio, which allows you to analyze degradation data obtained from tests that destroy the specimen or alter its subsequent performance. The result is then used to predict a product’s future failure behavior.

Integration with nCode GlyphWorks for Utilizing Actual Stress Profiles

With Version 11, you have the ability to import and process signals or time series data from nCode GlyphWorks .s3t files and subsequently utilize the post-process profiles in ALTA for reliability calculations.

Design of Experiments (DOE)

ALTA now supports a variety of experiment design types, including factorial and fractional designs, Taguchi robust designs, response surface method designs and reliability DOE.

Upgrade to ALTA 11 — Contact us today for more information.

Weibull++ Reliability Life Data Analysis ALTA Accelerated Life Testing Data Analysis RGA Reliability Growth and Repairable System Analysis BlockSim System Reliability and Maintainability Analysis RENO for Risk Analysis via Discrete Event Simulation Lambda Predict Reliability Prediction Xfmea FMEA and FMECA RCM++ Reliability Centered Maintenance MPC MSG-3 Maintenance Program Creation XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management ALTA Accelerated Life Testing Data Analysis BlockSim System Reliability and Maintainability Analysis MPC MSG-3 Maintenance Program Creation Lambda Predict Reliability Prediction RCM++ Reliability Centered Maintenance RENO for Risk Analysis via Discrete Event Simulation RGA Reliability Growth and Repairable System Analysis Weibull++ Reliability Life Data Analysis Xfmea FMEA and FMECA XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management ALTA Accelerated Life Testing Data Analysis BlockSim System Reliability and Maintainability Analysis MPC MSG-3 Maintenance Program Creation Lambda Predict Reliability Prediction RCM++ Reliability Centered Maintenance RENO for Risk Analysis via Discrete Event Simulation RGA Reliability Growth and Repairable System Analysis Weibull++ Reliability Life Data Analysis Xfmea FMEA and FMECA XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management    ReliaSoft.com Footer

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