구독해서 새 게시물에 대한 알림을 받으세요.

Using Fortran on Cloudflare Workers

2024-05-07

3분 읽기
이 게시물은 English로도 이용할 수 있습니다.
Using Fortran on Cloudflare Workers

In April 2020, we blogged about how to get COBOL running on Cloudflare Workers by compiling to WebAssembly. The ecosystem around WebAssembly has grown significantly since then, and it has become a solid foundation for all types of projects, be they client-side or server-side.

As WebAssembly support has grown, more and more languages are able to compile to WebAssembly for execution on servers and in browsers. As Cloudflare Workers uses the V8 engine and supports WebAssembly natively, we’re able to support languages that compile to WebAssembly on the platform.

Recently, work on LLVM has enabled Fortran to compile to WebAssembly. So, today, we’re writing about running Fortran code on Cloudflare Workers.

Before we dive into how to do this, here’s a little demonstration of number recognition in Fortran. Draw a number from 0 to 9 and Fortran code running somewhere on Cloudflare’s network will predict the number you drew.

This is taken from the wonderful Fortran on WebAssembly post but instead of running client-side, the Fortran code is running on Cloudflare Workers. Read on to find out how you can use Fortran on Cloudflare Workers and how that demonstration works.

Wait, Fortran? No one uses that!

Not so fast! Or rather, actually pretty darn fast if you’re doing a lot of numerical programming or have scientific data to work with. Fortran (originally FORmula TRANslator) is very well suited for scientific workloads because of its native functionality for things like arithmetic and handling large arrays and matrices.

If you look at the ranking of the fastest supercomputers in the world you’ll discover that the measurement of “fast” is based on these supercomputers running a piece of software called LINPACK that was originally written in Fortran. LINPACK is designed to help with problems solvable using linear algebra.

The LINPACK benchmarks use LINPACK to solve an n x n system of linear equations using matrix operations and, in doing so, determine how fast supercomputers are. The code is available in Fortran, C and Java.

A related Fortran package, BLAS, also does linear algebra and forms the basis of the number identifying code above. But other Fortran packages are still relevant. Back in 2017, NASA ran a competition to make FUN3D (used to perform calculations of airflow over simulated aircraft). FUN3D is written in Fortran.

So, although Fortran (or at the time FORTRAN) first came to life in 1957, it’s alive and well and being used widely for scientific applications (there’s even Fortran for CUDA). One particular application left Earth 20 years after Fortran was born: Voyager. The Voyager probes use a combination of assembly language and Fortran to keep chugging along.

But back in our solar system, and back on Region: Earth, you can now use Fortran on Cloudflare Workers. Here’s how.

How to get your Fortran code running on Cloudflare Workers

To make it easy to run your Fortran code on Cloudflare Workers, we created a tool called Fortiche (translates to smart in French). It uses Flang and Emscripten under the hood.

Flang is a frontend in LLVM and, if you read the Fortran on WebAssembly blog post, we currently have to patch LLVM to work around a few issues.

Emscripten is used to compile LLVM output and produce code that is compatible with Cloudflare Workers.

This is all packaged in the Fortiche Docker image. Let’s see a simple example.

add.f90:

SUBROUTINE add(a, b, res)
    INTEGER, INTENT(IN) :: a, b
    INTEGER, INTENT(OUT) :: res

    res = a + b
END

Here we defined a subroutine called add that takes a and b, sums them together and places the result in res.

Compile with Fortiche:

docker run -v $PWD:/input -v $PWD/output:/output xtuc/fortiche --export-func=add add.f90

Passing --export-func=add to Fortiche makes the Fortran add subroutine available to JavaScript.

The output folder contains the compiled WebAssembly module and JavaScript from Emscripten, and a JavaScript endpoint generated by Fortiche:

$ ls -lh ./output
total 84K
-rw-r--r-- 1 root root 392 avril 22 12:00 index.mjs
-rw-r--r-- 1 root root 27K avril 22 12:00 out.mjs
-rwxr-xr-x 1 root root 49K avril 22 12:00 out.wasm

And finally the Cloudflare Worker:

// Import what Fortiche generated
import {load} from "../output/index.mjs"

export default {
    async fetch(request: Request): Promise<Response> {
        // Load the Fortran program
        const program = await load();

        // Allocate space in memory for the arguments and result
        const aPtr = program.malloc(4);
        const bPtr = program.malloc(4);
        const outPtr = program.malloc(4);

        // Set argument values
        program.HEAP32[aPtr / 4] = 123;
        program.HEAP32[bPtr / 4] = 321;

        // Run the Fortran add subroutine
        program.add(aPtr, bPtr, outPtr);

        // Read the result
        const res = program.HEAP32[outPtr / 4];

        // Free everything
        program.free(aPtr);
        program.free(bPtr);
        program.free(outPtr);

        return Response.json({ res });
    },
};

Interestingly, the values we pass to Fortran are all pointers, therefore we have to allocate space for each argument and result (the Fortran integer type is four bytes wide), and pass the pointers to the add subroutine.

Running the Worker gives us the right answer:

$ curl https://fortran-add.cfdemos.workers.dev

{"res":444}

You can find the full example here.

Handwritten digit classifier

This example is taken from https://gws.phd/posts/fortran_wasm/#mnist. It relies on the BLAS library, which is available in Fortiche with the flag: --with-BLAS-3-12-0.

Note that the LAPACK library is also available in Fortiche with the flag: --with-LAPACK-3-12-0.

You can try it below:

And you can access the source code here.

Let us know what you write using Fortran and Cloudflare Workers!

END

Cloudflare에서는 전체 기업 네트워크를 보호하고, 고객이 인터넷 규모의 애플리케이션을 효과적으로 구축하도록 지원하며, 웹 사이트와 인터넷 애플리케이션을 가속화하고, DDoS 공격을 막으며, 해커를 막고, Zero Trust로 향하는 고객의 여정을 지원합니다.

어떤 장치로든 1.1.1.1에 방문해 인터넷을 더 빠르고 안전하게 만들어 주는 Cloudflare의 무료 앱을 사용해 보세요.

더 나은 인터넷을 만들기 위한 Cloudflare의 사명을 자세히 알아보려면 여기에서 시작하세요. 새로운 커리어 경로를 찾고 있다면 채용 공고를 확인해 보세요.
FortranDeveloper Platform개발자Cloudflare Workers

X에서 팔로우하기

Sven Sauleau|@svensauleau
Cloudflare|@cloudflare

관련 게시물

2024년 10월 31일 오후 1:00

Moving Baselime from AWS to Cloudflare: simpler architecture, improved performance, over 80% lower cloud costs

Post-acquisition, we migrated Baselime from AWS to the Cloudflare Developer Platform and in the process, we improved query times, simplified data ingestion, and now handle far more events, all while cutting costs. Here’s how we built a modern, high-performing observability platform on Cloudflare’s network. ...

2024년 10월 25일 오후 1:00

Elephants in tunnels: how Hyperdrive connects to databases inside your VPC networks

Hyperdrive (Cloudflare’s globally distributed SQL connection pooler and cache) recently added support for directing database traffic from Workers across Cloudflare Tunnels. We dive deep on what it took to add this feature....

2024년 10월 24일 오후 1:05

Build durable applications on Cloudflare Workers: you write the Workflows, we take care of the rest

Cloudflare Workflows is now in open beta! Workflows allows you to build reliable, repeatable, long-lived multi-step applications that can automatically retry, persist state, and scale out. Read on to learn how Workflows works, how we built it on top of Durable Objects, and how you can deploy your first Workflows application....