--- title: Processes permalink: /processes --- `Process` simplifies writing and running PHP in parallel. A script written to be run in parallel must return a callable that will be run in a child process. The callable receives a single argument – an instance of `Channel` that can be used to send data between the parent and child processes. Any serializable data can be sent across this channel. The `Process` object is the other end of the communication channel, as it implements `Context`, which extends `Channel`. In the example below, a child process is used to call a blocking function (`file_get_contents()` is only an example of a blocking function, use [Artax](https://amphp.org/artax) for non-blocking HTTP requests). The result of that function is then sent back to the parent using the `Channel` object. The return value of the child process callable is available using the `Process::join()` method. ## Child Process ```php # child.php use Amp\Parallel\Sync\Channel; return function (Channel $channel): \Generator { $url = yield $channel->receive(); $data = file_get_contents($url); // Example blocking function yield $channel->send($data); return 'Any serializable data'; }); ``` ## Parent Process ```php # parent.php use Amp\Loop; use Amp\Parallel\Context\Process; Loop::run(function () { $process = new Process(__DIR__ . '/child.php'); $pid = yield $process->start(); $url = 'https://google.com'; yield $process->send($url); $requestData = $process->receive(); printf("Received %d bytes from %s\n", \strlen($requestData), $url); $returnValue = $process->join(); printf("Child processes exited with '%s'\n", $returnValue); }); ``` Child processes are also great for CPU-intensive operations such as image manipulation or for running daemons that perform periodic tasks based on input from the parent.