Apparatus and methods are provided for a quantum-tunneling enabled case, or cases, for making a plurality of silicon-based electronic devices quantum-resilient. The case may include a plurality of silicon-based electronic devices. The case may also include a quantum random number generator that generates encryption keys. The keys may be for use in encrypting transmission transmitted from the electronic devices. The communications transmitted from the plurality of silicon-based electronic devices may be routed to the case prior to being transmitted to their intended recipient. The case may encrypt the communications received at the case using random numbers generated by the quantum random number generator. The case may transmit the encrypted communications to their intended recipients.
Claim CLM-00001. 1. A quantum-tunneling-enabled device case for making a silicon-based electronic device quantum-resilient, the case comprising:
a housing for the silicon-based electronic device, said housing comprising quantum-tunneling material; and a quantum random number generator that generates encryption keys, said keys for use in encrypting transmissions transmitted from the electronic device.
Claim CLM-00005. 5. A quantum-tunneling-enabled farm for making a plurality of silicon-based electronic devices quantum-resilient, the farm comprising:
a plurality of silicon-based electronic devices; and a quantum random number generator that generates encryption keys, said keys for use in encrypting transmissions transmitted from the electronic devices.
Claim CLM-00010. 10. A method for quantum-resistant communication between a first silicon-based device and a second silicon-based device, the method comprising:
encapsulating the first device in a first quantum-tunneling-enabled device case; encapsulating a second device in a second quantum-tunneling-enabled device case; transmitting a communication from the first device; receiving, via a first quantum-tunneling wave, the communication at the first quantum-tunneling-enabled device case; generating a quantum-resilient random number within the first quantum-tunneling-enabled device case; using the generated quantum-resilient random number to encrypt the communication; transmitting the encrypted communication over a network to the second device; receiving the encrypted communication at the second quantum-tunneling-enabled device case; decrypting the encrypted communication at the second quantum-tunneling-enabled device case; and transmitting, via a second quantum-tunneling wave, the communication from the second quantum-tunneling-enabled device case to the second device.
Claim CLM-00013. 13. A method for quantum-resistant communication between a first silicon-based device and a second silicon-based device, the method comprising:
encapsulating the first device in a first quantum-tunneling-enabled device case; encapsulating a second device in a second quantum-tunneling-enabled device case; transmitting a communication from the first device; receiving the communication at the first quantum-tunneling-enabled device case; generating a quantum-resilient random number within the first quantum-tunneling-enabled device case; using the generated quantum-resilient random number to encrypt the communication; transmitting the encrypted communication, via a quantum-tunneling wave, to the second device; receiving the encrypted communication at the second quantum-tunneling-enabled device case; decrypting the encrypted communication at the second quantum-tunneling-enabled device case; and transmitting the communication from the second quantum-tunneling-enabled device case to the second device.
