optimize

在 x86 上优化 Android 应用的方法和技巧

英特尔致力于帮助开发人员提供能够在英特尔架构上正常运行(甚至出色运行)的 Android 应用。 虽然英特尔主要致力于社区层面:优化 Dalvik Java、V8 引擎和 Bionic C;丰富代码库;为 IA 提供采用 32 位和 64 位内核的版本,他们同样提供了多种类型的新工具为 Android 开发人员提供帮助。 这些工具主要用于提高性能,使其超过面向 x86 的默认 ARM 转换层:libhoudini 所提供的性能。

但是首先需要选择合适的工具。 创建 Android 应用有 3 种常见的方法。

Tips and Tricks to Optimize Android Apps on x86

Intel has a vested interest in helping developers provide Android applications that run well (or even best) on Intel architecture. While Intel is working at the community level - optimizing Dalvik Java, V8 engine, and Bionic C; contributing to the code base; and providing releases with both 32 bit and 64-bit Kernels for IA; they are also creating new tools to help  Android developers. Many of these focus on improving performance beyond that available with the default ARM translation layer for x86: libhoudini

Ultrabook Part 2: Intel® VTune™ Amplifier XE 2011 with Windows 8* and Visual Studio* 2012 RC

As I continue to explore different Ultrabook capabilities, in this blog I decided to look into a powerful threading and performance optimization tool for C/C++, .NET, and FORTRAN developers who need to understand an application's serial and parallel behavior to improve performance and scalability: Intel® VTune™ Amplifier XE 2011.

Iscriversi a optimize