First off, let me say I've not tried this at all. You may be able to do this, but it looks like you might be blazing a trail here so expect some issues and some trial and error.
As you have likely already seen the list of supported devices are listed out here http://msdn.microsoft.com/en-us/library/windowsazure/jj156075#bkmk_untested and all are devices; however, the requirements for what the VPN must do is as follows:
VPN device must have a public facing IPv4 address
VPN device must support IKEv1
Establish IPsec Security Associations in Tunnel mode
VPN device must support NAT-T
VPN device must support AES 128-bit encryption function, SHA-1
hashing function, and Diffie-Hellman Perfect Forward Secrecy in
"Group 2" mode
VPN device must fragment packets before encapsulating with the VPN
UDP port 500, UDP port 4500 and ESP packets must be permitted to
traverse the network edge (open ACLs in the edge to allow these
protocols / ports)
They note that while the Juniper and Cisco devices are the only ones supported they don't rule out that other devices and/or software solutions working. Other options just aren't supported and they won't provide the scripts and handy step by step instructions on getting them set up. If you are interested enough to try getting something working and don't mind not getting support if something goes wrong, then you can continue from here.
If you can find a software VPN solution that meets the requirements above then you may just be able to pull this off. Here is a link to a blog post where someone got it working using the Threat Management Gateway (TMG): http://blog.kloud.com.au/2012/07/25/windows-azure-virtual-network-vpn-with-tmg-2010/ . Note that the TMG has been discontinued, but at least this is an example of someone using a software VPN solution which is the first step in your scenario.
The second hurdle might be the fact that you need a public IP that is not behind a NAT. I'm not overly familiar with Amazon, but I believe this means you'll likely want to look at an EIP (Elastic IP address) so that the IP is static, publicly addressable and will remain consistent even if you have to stop or redeploy your EC2 instance.
The idea would be to get a VPN software solution that meets the requirements above, set that up on an EC2 instance with an EIP and then determine the configuration needed for Azure VPN. For now that's the best I can suggest. If you get it working you should definitely blog about it as indeed this could be a very good option for those wanting to stretch across the vendors for a whole host of reasons.