没有自动定理证明器的支持,程序性质的证明全部需要程序员手工完成,工作量巨大。
Without automated theorem prover, programmers have to generate all proofs by hand, which is a huge workload.
二十世纪七十年代,道格拉斯·莉娜的“自动数学家”程序自动生成数学定理,但是被证明基本上毫无用处。
In the 1970s, Douglas Lenat's Automated Mathematician automatically generated mathematical theorems, but they proved largely useless.
它演示了自动化技术、TAL和自动化定理证明,从而验证了操作系统中和运行时复杂的低级代码的安全性。
Demonstration of automated techniques, TAL and automated theorem proving, to verify the safety of the complex low-level code in the operating system and run-time.
它演示了少量带有自动化定理证明功能,经过验证的代码它能够支持任意数量的TAL代码。
Demonstrates that a small amount of code verified with automated theorem proving can support an arbitrary large amount of TAL code.
归结原理是定理自动证明的重要工具。
Resolution Principle is an important means of automatic proving of theorem.
尽管缺少自动化,高效地使用定理证明器能处理比模型检查器更大的设计并且要求更小的内存。
Although less automatic, efficient usage of a theorem prover can handle much larger designs than model checkers and requires less memory.
尽管缺少自动化,高效地使用定理证明器能处理比模型检查器更大的设计并且要求更小的内存。
Although less automatic, efficient usage of a theorem prover can handle much larger designs than model checkers and requires less memory.
应用推荐