Has anyone used the gold linker before? To link a fairly large project, I had to use this as opposed to the GNU ld, which threw up a few errors and failed to link.

How is the gold linker able to link large projects where ld fails? Is there some kind of memory trickery somewhere?

  • What were the errors? You've likely run out of memory and ld was killed by OoM. ld can easilu consume many GBs of ram on a large C++ projects, while gold and especially lld linkers are much more resource-efficient.
    – Dan M.
    Oct 9, 2019 at 17:26
  • yes ld experienced an out of memory error, but the gold linker was able to link it Oct 10, 2019 at 3:56

4 Answers 4


The gold linker was designed as an ELF-specific linker, with the intention of producing a more maintainable and faster linker than BFD ld (the “traditional” GNU binutils linker). As a side-effect, it is indeed able to link very large programs using less memory than BFD ld, presumably because there are fewer layers of abstraction to deal with, and because the linker’s data structures map more directly to the ELF format.

I’m not sure there’s much documentation which specifically addresses the design differences between the two linkers, and their effect on memory use. There is a very interesting series of articles on linkers by Ian Lance Taylor, the author of the various GNU linkers, which explains many of the design decisions leading up to gold. He writes that

The linker I am now working, called gold, on will be my third. It is exclusively an ELF linker. Once again, the goal is speed, in this case being faster than my second linker. That linker has been significantly slowed down over the years by adding support for ELF and for shared libraries. This support was patched in rather than being designed in.

(The second linker is BFD ld.)


The gold linker was written to make the link process considerably faster. According to the gold auther Ian Lance Taylor

At the moment gold has only one significant advantage over the existing linker: it is faster. On large C++ programs, I have measured it as running five times faster.

He is comparing gold linker performance with the traditional GNU linker. gold (unlike the GNU linker) does not use the BFD library to process object files.

The limitation of gold is that (unlike GNU linker which can process many object file types) it can only link ELF format object files.

Regarding the issues you faced with when using GNU linker, here is an interesting answer to a similar question on SO from Michael Adam:

The gold linker even found some dependency problems in our code, since it seems to be more correct than the classical one with respect to some details. See, e.g. this Samba commit.


gold vs ld benchmark

I have published a concrete synthetic benchmark of ld vs gold at: https://stackoverflow.com/questions/3476093/replacing-ld-with-gold-any-experience/53921263#53921263

Summary of results: gold was 2x to 3x times faster than ld.

This time gain can be a huge game changer on complex C++ projects with out-of-control templates and code generation, because the link step involves all files from the project, and unlike compilation, it has to be done always, even if you change just a single .cpp file.

So a slow link time makes the development cycle unbearable, and is likely the main reason Google sank resources into it. Just imagine the gains of waiting 10s instead of 30s for every trivial file change.

The time gains of the synthetic benchmark also agreed with actual gains I had on a complex real world project (gem5), as also mentioned on that answer.


There are three linkers available on modern GNU/Linux systems:

  • ld, maintained by GNU binutils,
  • gold, maintained by GNU binutils, "still in beta test",
  • lld, developed as part of the LLVM project.

For speed benchmarks, see: https://www.phoronix.com/scan.php?page=article&item=lld4-linux-tests&num=2 TL, DR: lld is fastest, followed by gold, followed by ld

Some sources say the gold project has been stagnating, and the package structure in Fedora reflects this.

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