I'm responsible for a VPC estate, with long experience of using various instance types and a good understanding of their characteristics. These characteristics can easily be tested and profiled by anyone and relied-upon as (generally) constant with the exception of the
t1.micro instance-type is highly variable in both CPU and network performance, since it is essentially using aggregate 'spare' capacity on the host on which it is running (which of course will be running a variety of other instances and instance-types also). It is also subject to aggressive demand throttling on CPU and network usage -
there is a distinctive profile in force which limits extended high-load usage, and which then adaptively returns capacity to the instance after such a high-load threshold has been reached and capped.
When configuring my VPC estate, I initially downgraded the NAT instance from
t1.micro, reasoning that a simple network gateway appliance was unlikely to demand the capacity of the
m1.small type, and since it was always-on then I should pay the lowest price possible. However, observation (and later confirmation by an Amazon engineer) showed that as the estate grew and NAT load went up, the
t1.micro throttle profile presented a definite and measurable bottleneck. Switching back to
m1.small, with its' pre-allocated and constant network bandwidth, eliminated that bottleneck.
In short, your NAT instance will choke your VPC estate internet access if it is a
t1.micro - traffic into and out of the VPC (other than over a VPN) will quickly trigger the bandwidth throttle as soon as throughput rises for longer than the duration limit, and will stay throttled until demand drops (after which the throttle will adaptively release). Your network throughput through the NAT will be choppy and sluggish in all but minimum load scenarios.