You will also add a virtual memory implementation.
Pintos could, theoretically, run on a regular IBM-compatible PC.
You will also add a virtual memory implementation.
Pintos could, theoretically, run on a regular IBM-compatible PC.
a dedicated PC for use with Pintos. Therefore, we will run Pintos projects
in a system simulator, that is, a program that simulates an 80@var{x}86
CPU and its peripheral devices accurately enough that unmodified operating
a dedicated PC for use with Pintos. Therefore, we will run Pintos projects
in a system simulator, that is, a program that simulates an 80@var{x}86
CPU and its peripheral devices accurately enough that unmodified operating
QEMU} simulators. Pintos has also been tested with
@uref{http://www.vmware.com/, , VMware Player}.
QEMU} simulators. Pintos has also been tested with
@uref{http://www.vmware.com/, , VMware Player}.
time, and deservedly so. We will do what we can to reduce the workload, such
as providing a lot of support material, but there is plenty of
hard work that needs to be done. We welcome your
time, and deservedly so. We will do what we can to reduce the workload, such
as providing a lot of support material, but there is plenty of
hard work that needs to be done. We welcome your
Now you can extract the source for Pintos into a directory named
@file{pintos/src}, by executing
@example
Now you can extract the source for Pintos into a directory named
@file{pintos/src}, by executing
@example
Let's take a look at what's inside. Here's the directory structure
that you should see in @file{pintos/src}:
Let's take a look at what's inside. Here's the directory structure
that you should see in @file{pintos/src}: