This sounds like an architectural problem. Why do you need to make thousands of requests at the same time? Is that sort of parellism going to do any good, or are you just going to accidentally DOS (Denial-of-Service) some poor suspecting web service/API?
Assuming you're not pounding a single remote server, you still need to worry about how many connections your local box can handle. There are only so many ports you can use outgoing, and they're measured in the low tens of thousands. It's not hard to hit that limit if you're going nuts opening connections. Anyone who's overdone load testing with apachebench knows this.
PHP is not a great tool for this kind of thing -- and I'm a guy who does 90% PHP. There's no threading, and it's memory intensive. If you want 1000 PHP processes in parallel, you're going to need more than one machine. Your typical PHP process is going to consume around 10-20 megs of memory, unless you tune the hell out of it (probably at compile-time.
You say this happens once a year. That makes me think it might not be necessary be all that parellel. What if you only had 24 or 36 parallel processes?
That said, here's how I'd probably approach this. PHP will probably work fine, and if you run into the memory inefficiency issues, you can swap out just one part. You want two, more-or-less asynchronous queues, and a pair of processes that work on them:
A "fetch queue" - a work queue of HTTP requests that need to get made. They perform the request and stick the data in the processing queue (see next bullet).
A "processing queue" a work queue that works through whatever the HTTP responses contain. As is queue gets processed, it can add new items to "fetch queue"
Some process (or a couple dozen) that run in parallel working on the fetch queue. Parallelism is nice here, since you have so much latency due to the network.
Some process that chews on the "processing queue" - it's not clear that parallelism will help here. All this processing happens locally, and can probably be a simple loop.