Edit: I was originally concerned about bandwidth, but the above article claims
On-chip wireless channel capacity. Because of such low signal
loss over on-chip wireless channels and new techniques in generating terahertz signals on-chip [14,31], the on-chip wireless network
becomes feasible. In addition, it is possible to switch a CMOS transistor as fast as 500 GHz at 32 nm CMOS [21], thus allowing us
to implement a large number of high frequency bands for the onchip wireless network. Following a rule of thumb in RF design, the
maximum available bandwidth is 10% of the carrier frequency. For
example, with a carrier frequency of 300 GHz, the data rate of each
channel can be as large as 30 Gbps. Using a 32 nm CMOS process, there will be total of 16 available channels, from 100 GHz to
500 GHz, for the on-chip wireless network, and each channel can
transmit at 10 to 20 Gbps. In the 1000-core CMPs design, the total
aggregate data rate can be as high as 320 Gbps with 16 TX’s and
64 RX’s.
I should have done some more due diligence before suggesting my idea:
http://www.cs.ucla.edu/~sblee/Papers/mobicom09-wnoc.pdf
Edit: I was originally concerned about bandwidth, but the above article claims