How are your one thousand devices connecting? If each one establishes a TCP/IP connection to your server you'll need to make sure you have enough file descriptors in the machine to which they connect. Look at
/proc/sys/fs/file-max to see the maximum. A thousand client connections to a single server machine is considered a large number.
How much data is in each record? Will you overwhelm your network hardware? If each record is ten bytes, then you're talking about twenty million bytes coming in per second, or one hundred and sixty million bits. A 100 megabit per second ethernet interface won't be nearly enough. Even a gigabit interface is questionable: it's hard to maintain enormous throughput. Keep in mind that if the DBMS is on a different machine from the server that receives your data, these records will have to both come in and go out, doubling your network throughput.
How are you going to handle the possibility that your DBMS or some other part of your system will get behind in its workload? An occasional thirty-second delay by the DBMS in accepting INSERT commands is very possible, but an enormous amount of unhandled data will accumulate during that time.
You should consider partitioning this problem into groups of, maybe, 50 or 100 devices, and 20 or ten central server setups collecting data. If you do that you won't have a single point of failure, you won't be pushing your networking hardware extremely hard, and you may be able to work out some kind of failover strategy if you lose some hardware. You'll also be able to use much cheaper and more cost-effective server and networking equipment.
On MySQL, use as few indexes as you can to support the queries you need to do. Keep in mind that doing summary queries (like
SELECT COUNT(*) FROM raw WHERE timestamp > NOW() - INTERVAL 1 HOUR) can dramatically slow down INSERT operations while they are running.
You may want to consider using a queuing system such as ActiveMQ to handle your data flow.