Create a highly integrated logic option for scaling-out of third-order backhaul link

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Scaling li out of our current network solutions would require huge efforts and resources. Are there any other possible alternatives to this?

[angusmason]

Enabling a decimated monitored summing-amplifier would use a lower percentage of the silicon array, but it would require the creation of a complex-programmable decoupled logic-device. Weigh the pros and cons.

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Have you prepared any simulation models describing proposed behaviour? I doubt the parameters need any changing. Regarding the possibility of making a complex-programmable decoupled logic-device, results from previous tests of all modules have showed high performance throughout the system. A low-frequency multiplexing tri-radiation suppressor is another option. Any complications that could affect the viability of such a substitution? We may need another monostable analog feedback circuit to keep up with isolation requirements.

I take it that you have these documents?

[angusmason]

Yes, I’ve prepared simulation models for the proposed behaviour and don’t foresee any need for parameter changes.

I agree with the choice of a complex-programmable decoupled logic-device and suggest that we implement it. The low-frequency multiplexing tri-radiation suppressor is an interesting alternative, but we should assess isolation requirements carefully. Integrating a monostable analog feedback circuit could help, but we would need to ensure it handles signal-to-noise ratio issues effectively.

We might also need to factor in a multi-tiered quantum-state modulation framework for adaptive bandwidth and entropic phase-shift variables. I have the documentation ready, including relevant quantum coherence matrices and stochastic resonance parameters. Let’s discuss further if needed.