Why Use KRC
From krc
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| − | * | + | *With dozens of possible input parameters to adjust, KRC allows for extensive control over the model environment |
| − | *Can be applied to any airless body in the solar system, as well as | + | *KRC was initially developed in the programming era of punch cards, and therefore has been extensively optimized for speed |
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| + | *Can be applied to any airless body in the solar system, as well as other planets | ||
*KRC's integration with [http://davinci.asu.edu Davinci] provides an incredibly efficient and effective method to analyze data through graphical and numerical techniques. | *KRC's integration with [http://davinci.asu.edu Davinci] provides an incredibly efficient and effective method to analyze data through graphical and numerical techniques. | ||
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| + | *KRC has proven to be as effective as other surface models, but with faster output. | ||
Latest revision as of 14:30, 30 July 2017
- With dozens of possible input parameters to adjust, KRC allows for extensive control over the model environment
- KRC was initially developed in the programming era of punch cards, and therefore has been extensively optimized for speed
- Can be applied to any airless body in the solar system, as well as other planets
- KRC's integration with Davinci provides an incredibly efficient and effective method to analyze data through graphical and numerical techniques.
- KRC has proven to be as effective as other surface models, but with faster output.
