Whenever present, use the CONFIG_FRAME_POINTER option while compiling the kernel with KDB.
在编译带kdb的内核时,只要CONFIG_FRAME _ POINTER选项出现就使用该选项。
Do not use a different GCC when compiling the kernel image and the user space tools because it can result in a system lock up.
编译内核映像和用户空间工具时不要使用不同的gcc,因为这可能会造成系统的锁定。
In this article we'll start with information on downloading KDB patches, applying them, (re) compiling the kernel, and starting KDB.
在本文中,我们将从有关下载kdb补丁、打补丁、(重新)编译内核以及启动KDB方面的信息着手。
Note that the information it returns includes technical information aimed at people in the middle of compiling a kernel.
注意,搜索框返回的信息,包括了针对人们在编译内核时要用到的技术信息。
Enable it (compiling it directly into your kernel is recommended). Hit y, and the following three sub-options will appear.
启用它(推荐将它直接编译进您的内核)。
Under HP-UX 10.20 kernel changes, it is possible to increase the global shared memory limit from 1.75G to 2.75GB, by compiling the application to use the SHMEM_MAGIC kernel executable.
随着 HP-UX 10.20内核的更改,可以通过编译应用程序使之使用 SHMEM_MAGIC 内核可执行程序,可以将全局共享内存的限制从 1.75G增加到 2.75GB。
While applications in general will see performance gains from the kernel level NUMA support, additional gains may be achieved by compiling against these user-land API's.
虽然通常可以发现应用程序可以因内核级NUMA支持而获得性能提高,但是使用这些用户空间api进行编译能够获得进一步的提高。
While applications in general will see performance gains from the kernel level NUMA support, additional gains may be achieved by compiling against these user-land APIs.
尽管从总体上看应用程序都能够从内核级别NUMA支持获得性能改进,但是重新编译这些user -landAPI还可以获得进一步的性能改进。
The kernel configuration and compiling of JFFS2 are introduced in this paper as well.
并介绍了JFFS2文件系统的内核配置及编译方法。
Then you can proceed with a normal way of compiling the external module and load it with running kernel without any issue.
然后就可以使用编译外部模块的正常方式进行,并没有任何问题,运行的内核加载它。
Then you can proceed with a normal way of compiling the external module and load it with running kernel without any issue.
然后就可以使用编译外部模块的正常方式进行,并没有任何问题,运行的内核加载它。
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