This folder contains the Java interface for TVM runtime. It brings TVM runtime to Java virtual machine.
TVM4J contains three modules:
libtvm.so.path which contains the TVM runtime library as Java system property.First please refer to Installation Guide and build runtime shared library from the C++ codes (libtvm_runtime.so for Linux and libtvm_runtime.dylib for OSX).
Then you can compile tvm4j by
make jvmpkg
(Optional) run unit test by
sh tests/scripts/task_java_unittest.sh
After it is compiled and packaged, you can install tvm4j in your local maven repository,
make jvminstall
It is easy to define a Java function and call it from TVM. The following snippet demonstrate how to concatenate Java strings.
Function func = Function.convertFunc(new Function.Callback() { @Override public Object invoke(TVMValue... args) { StringBuilder res = new StringBuilder(); for (TVMValue arg : args) { res.append(arg.asString()); } return res.toString(); } }); TVMValue res = func.pushArg("Hello").pushArg(" ").pushArg("World!").invoke(); assertEquals("Hello World!", res.asString()); res.release(); func.release();
It is your job to verify the types of callback arguments, as well as the type of returned result.
You can register the Java function by Function.register and use Function.getFunction to get the registered function later.
There's nothing special for this part. The following Python snippet generate add_cpu.so which add two vectors on CPU.
import os import tvm from tvm import te from tvm.contrib import cc, util def test_add(target_dir): n = te.var("n") A = te.placeholder((n,), name='A') B = te.placeholder((n,), name='B') C = te.compute(A.shape, lambda i: A[i] + B[i], name="C") s = te.create_schedule(C.op) fadd = tvm.build(s, [A, B, C], "llvm", target_host="llvm", name="myadd") fadd.save(os.path.join(target_dir, "add_cpu.o")) cc.create_shared(os.path.join(target_dir, "add_cpu.so"), [os.path.join(target_dir, "add_cpu.o")]) if __name__ == "__main__": import sys if len(sys.argv) != 2: sys.exit(-1) test_add(sys.argv[1])
The following code snippet demonstrate how to load generated shared library (add_cpu.so).
import org.apache.tvm.Module; import org.apache.tvm.NDArray; import org.apache.tvm.TVMContext; import java.io.File; import java.util.Arrays; public class LoadAddFunc { public static void main(String[] args) { String loadingDir = args[0]; Module fadd = Module.load(loadingDir + File.separator + "add_cpu.so"); TVMContext ctx = TVMContext.cpu(); long[] shape = new long[]{2}; NDArray arr = NDArray.empty(shape, ctx); arr.copyFrom(new float[]{3f, 4f}); NDArray res = NDArray.empty(shape, ctx); fadd.entryFunc().pushArg(arr).pushArg(arr).pushArg(res).invoke(); System.out.println(Arrays.toString(res.asFloatArray())); arr.release(); res.release(); fadd.release(); } }
There are two ways to start an RPC server on JVM. A standalone server can be started by
Server server = new Server(port); server.start();
This will open a socket and wait for remote requests. You can use Java, Python, or any other frontend to make an RPC call. Here's an example for calling remote function test.rpc.strcat in Java.
RPCSession client = Client.connect("localhost", port.value); Function func = client.getFunction("test.rpc.strcat"); String result = func.call("abc", 11L).asString();
Another way is to start a proxy, make server and client communicate with each other through the proxy. The following snippet shows how to start a server which connects to a proxy.
Server server = new Server(proxyHost, proxyPort, "key"); server.start();
You can also use StandaloneServerProcessor and ConnectProxyServerProcessor to build your own RPC server. Refer to Android RPC Server for more details.