This feature provides optimal reception of the IR code even in the presence of these light sources.
通过该功能,即使存在以上光源也能够最佳地获得红外线代码。
For example, one can write his own tool which analyzes the IR files and generates some conclusions on how the source code should be optimized.
例如,开发者可以编写他自己的工具来分析IR文件,并生成一些如何优化源代码的总结。
You can try out web-based demo to see how code is compiled into LLVM IR, or read the LLVM blog or see the documentation for more information.
你可以通过试用基于web的演示,来观察代码是如何编译成LLVMIR的,或通过查看LLVM博客和文档来获取更多的信息。
Version 2.2 has a new engine based on a linear IR, which brings significant speed and code size improvements.
Mono 2.2版有了一个基于线性IR的新引擎,大大改善了速度和代码大小。
The expression is compiled into LLVM IR, then bitcode, then assembly, then machine code. True compilation.
表达式会被编译成LLVMIR,然后转换成位码(bitcode),再变成汇编语句,最后变成机器码。
Until now Mono's code generation engine was based on a tree Intermediate Representation (IR) of the code.
直到现在Mono的代码生成引擎都是基于树状的代码中间表现形式(Intermediate Representation,IR)。
The source code can be analyzed and is represented into an IR (Intermediate Representation) form, which can be later analyzed and manipulated with various tools.
源代码可以经过分析,并被表示为IR(中间表示,IntermediateRepresentation)形式,这种形式可以在后期被各种工具分析和处理。
Considering that traditional UWB-IR system repeats and transmits very short pulses for each bit, an internally adaptive LDPC coded UWB-IR system to improve the repetition code was proposed.
针对传统UWB - IR系统重复编码方法进行改进,提出了一种内部自适应的LDPC编码uwb - IR系统实现方案,即自适应选择LDPC码的码率和重复编码的数目。
Considering that traditional UWB-IR system repeats and transmits very short pulses for each bit, an internally adaptive LDPC coded UWB-IR system to improve the repetition code was proposed.
针对传统UWB - IR系统重复编码方法进行改进,提出了一种内部自适应的LDPC编码uwb - IR系统实现方案,即自适应选择LDPC码的码率和重复编码的数目。
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