Abstract: A wireless server-to-server datacenter network architecture uses wireless links to eliminate the need for power-hungry switching fabric of traditional fat-tree based datacenter networks. The server-to-server wireless datacenter network (S2S-WiDCN) requires Line-of-Sight (LoS) between servers to establish direct communication links. Utilizing this LoS links, a horizontal-first routing algorithm is developed which, will establish fast communication links between any pair of communicating servers in the data center. The wireless links can be realized in millimeter-wave (such as 30, 60, 120 GHz) or THz (such as 300 GHz) frequency bands. The use of antenna-arrays to create beam-steering towards communicating servers is necessary to establish the direct server-to-server links. In the presence of an obstruction such as an IT technician, the LoS between communicating servers may be blocked. To address this issue, an obstruction-aware adaptive routing algorithm for the S2S-WiDCN is proposed.

Abstract: A processing element includes a PIM cluster configured to read data from and write data to an adjacent DRAM subarray, wherein the PIM cluster has a plurality of processing cores, each processing core of the plurality of processing cores containing a look-up table, and a router connected to each processing core, wherein the router is configured to communicate data among each processing core; and a controller unit configured to communicate with the router, wherein the controller unit contains an executable program of operational decomposition algorithms. The look-up tables can be programmable. A DRAM chip including a plurality of DRAM banks, each DRAM bank having a plurality of interleaved DRAM subarrays and a plurality of the PIM clusters configured to read data from and write data to an adjacent DRAM subarray is disclosed.

Abstract: A processing element includes a PIM cluster configured to read data from and write data to an adjacent DRAM subarray, wherein the PIM cluster has a plurality of processing cores, each processing core of the plurality of processing cores containing a look-up table, and a router connected to each processing core, wherein the router is configured to communicate data among each processing core; and a controller unit configured to communicate with the router, wherein the controller unit contains an executable program of operational decomposition algorithms. The look-up tables can be programmable. A DRAM chip including a plurality of DRAM banks, each DRAM bank having a plurality of interleaved DRAM subarrays and a plurality of the PIM clusters configured to read data from and write data to an adjacent DRAM subarray is disclosed.

Abstract: A wireless server-to-server datacenter network architecture uses wireless links to eliminate the need for power-hungry switching fabric of traditional fat-tree based datacenter networks. The server-to-server wireless datacenter network (S2S-WiDCN) requires Line-of-Sight (LoS) between servers to establish direct communication links. Utilizing this LoS links, a horizontal-first routing algorithm is developed which, will establish fast communication links between any pair of communicating servers in the data center. The wireless links can be realized in millimeter-wave (such as 30, 60, 120 GHz) or THz (such as 300 GHz) frequency bands. The use of antenna-arrays to create beam-steering towards communicating servers is necessary to establish the direct server-to-server links. In the presence of an obstruction such as an IT technician, the LoS between communicating servers may be blocked. To address this issue, an obstruction-aware adaptive routing algorithm for the S2S-WiDCN is proposed.

Abstract: A three-dimensional integrated circuit includes two or more stacks of one or more active layers; a gas-cooling layer separating the two or more stacks and a wireless interconnect between the two or more stacks enabling communication between the two or more stacks and system including a gas-cooled three-dimensional integrated circuit having wireless data interconnects is disclosed.