Let's look at the NDIS driver types that are available: miniports, lightweight filters, and protocols.
An NDIS miniport alone cannot solve this problem, since miniports receive packets from the host OS. You want something that receives packets from the network.
An NDIS lightweight filter could solve this problem, but the solution would be a little klunky. You'd have to manually synchronize between two unrelated miniport stacks. This is harder than it seems; others who have tried this before have gotten this wrong on the first few attempts.
An NDIS protocol driver is the best way to solve this problem. A protocol driver is designed to attach to multiple miniports, and the protocol driver has the ability to route packets from one miniport stack to the other.
But protocol drivers are missing one feature. If you just write a protocol driver, then this is how the drivers line up:
| \ / |
| \/ |
| /\ |
| / \ |
That is, the host's TCPIP stack sees both NICs as separate NICs. (@Aczire, you indicated in a previous question that this is ok for you. But for expository purposes, here's the rest of the story.)
NDIS allows you to solve this sort of problem with a MUX-IM driver. An IM driver is basically just a protocol glued onto another miniport. This allows you to control exactly what the host OS sees:
With this architecture, you can trick the host OS into thinking that these two networks are the same. (For example, user-facing GUIs will show a single network adapter, instead of two.) However, IM drivers come at a substantial complexity cost: they're hard to write, and even harder to get right. I do not recommend that you tackle an IM driver unless you have substantial experience and time.