We currently have two runtimes:
<ul>
- * <b>mono:</b> The Just In Time compiler implemented
- using a BURS instruction selector. We only support
- x86 machines in the JIT engine at this point.
+ * <b>mono:</b> Our Just-in-Time and Ahead-of-Time code
+ generator for maximum performance.
* <b>mint:</b> The Mono interpreter. This is an
easy-to-port runtime engine.
</ul>
- We are using the Bohem conservative garbage collector.
+ We are using the Boehm conservative garbage collector.
The Mono runtime can be used as a stand-alone process, or it
- can be <a href="embedded-api">embedded into applications</a> (see
+ can be <a href="embedded-api.html">embedded into applications</a> (see
the documentation in mono/samples/embed for more details).
Embedding the Mono runtime allows applications to be extended
href="http://primates.ximian.com/~lupus/slides/jit/">slides
here</a>
-** Current JIT Engine: technical details (<b>updated, July 8th, 2002</b>)
+** Current JIT Engine: technical details (<b>updated, June 28th, 2003</b>)
- The JIT engine uses a code-generator generator approach for
- compilation. Given the properties of CIL byte codes, we can
- take full advantage of a real instruction selector for our
- code generator.
+ We have re-written our JIT compiler. We wanted to support a
+ number of features that were missing:
+
+ <ul>
+ * Ahead-of-time compilation.
+
+ The idea is to allow developers to pre-compile their code
+ to native code to reduce startup time, and the working
+ set that is used at runtime in the just-in-time compiler.
+
+ Although in Mono this has not been a visible problem, we
+ wanted to pro-actively address this problem.
+
+ When an assembly (a Mono/.NET executable) is installed in
+ the system, it would then be possible to pre-compile the
+ code, and have the JIT compiler tune the generated code
+ to the particular CPU on which the software is
+ installed.
+
+ This is done in the Microsoft.NET world with a tool
+ called ngen.exe
+
+ * Have a good platform for doing code optimizations.
+
+ The design called for a good architecture that would
+ enable various levels of optimizations: some
+ optimizations are better performed on high-level
+ intermediate representations, some on medium-level and
+ some at low-level representations.
+
+ Also it should be possible to conditionally turn these on
+ or off. Some optimizations are too expensive to be used
+ in just-in-time compilation scenarios, but these
+ expensive optimizations can be turned on for
+ ahead-of-time compilations or when using profile-guided
+ optimizations on a subset of the executed methods.
+
+ * Reduce the effort required to port the Mono code
+ generator to new architectures.
+
+ For Mono to gain wide adoption in the Unix world, it is
+ necessary that the JIT engine works in most of today's
+ commercial hardware platforms.
+ </ul>
The JIT engine implements a number of optimizations:
* Inlining.
- * Constant folding.
+ * Constant folding, copy propagation, dead code elimination.
Although compilers typically do
constant folding, the combination of inlining with
* Linear scan register allocation. In the past,
register allocation was our achilles heel, but now
we have left this problem behind.
+
+ * SSA-based framework. Various optimizations are
+ implemented on top of this framework
</ul>
There are a couple of books that deal with this technique: "A
technical description of <a
href="http://research.microsoft.com/copyright/accept.asp?path=http://www.research.microsoft.com/~drh/pubs/iburg.pdf&pub=ACM">lbrug</a>.
- A few papers that describe the instruction selector:
+ The new JIT engines uses three intermediate representations:
+ the source is the CIL which is transformed into a forest of
+ trees; This is fed into a BURS instruction selector that
+ generates the final low-level intermediate representation.
+
+ The instruction selector is documented in the following
+ papers:
<ul>
* <a href="http://research.microsoft.com/copyright/accept.asp?path=http://www.research.microsoft.com/~drh/pubs/interface.pdf&pub=wiley">A code generation interface for ANSI C</a>
</ul>
-** New JIT engine.
-
- We are working on a new JIT engine. The new JIT engine
- focuses on portability and in two intermediate representations
- that simplify the development of optimizations. This together
- with the Ahead-of-Time compilation will allow developers to
- deploy applications that match the speed of natively compiled code.
-
** Garbage Collection
We are using the Boehm conservative GC. We might consider