Provided is a transmission device including a transmitter. The transmitter includes a first output, a second output, and a third output, and is configured to transmit a symbol signal corresponding to a combination of signals of the first output, the second output, and the third output. An output impedance of the second output is lower than an output impedance of the first output.

A transmitter includes an encoder configured to divide a first number of binary input bits of an input data signal into a first bit group and a second bit group, generate a first intermediate bit group and a second intermediate bit group by manipulating the first bit group and the second bit group differently based on a value of the first bit group, and generate a first symbol group and a second symbol group by encoding the first intermediate bit group and the second intermediate bit group, each of the first symbol group and the second symbol group including a plurality of symbols, and each of the plurality of symbols having three different voltage levels. The transmitter includes a driver configured to generate an output data signal by concatenating the first symbol group and the second symbol group.

The present invention describes a method and system for simultaneous transmission of data to coherent and non-coherent receivers. The method at the transmitter includes retrieving a base ternary sequence having a pre-defined length, obtaining one or more ternary sequences corresponding to data to be transmitted and transmitting the obtained one or more ternary sequences by the transmitter. The method steps at the receiver includes receiving one or more ternary sequences corresponding to the data transmitted, demodulating each of the received ternary sequences by correlating with all cyclic shifts of the base ternary sequence by the receiver if the receiver is a coherent receiver, demodulating each of the received ternary sequences by correlating with all cyclic shifts of the absolute of the base ternary sequence by the receiver if the receiver is a non-coherent receiver and detecting the transmitted data based on the cyclic shifts corresponding to maximum correlation values.

A method and a transmitter for transmitting a pay load sequence are provided. The transmitter includes a ternary sequence mapper configured to map a binary data sequence to a ternary sequence stored in the transmitter, and a pulse shaping filter configured to generate a first signal based on the mapped ternary sequence. The ternary sequence includes elements of 1, 0, and 1.

Apparatuses and methods for multi-level communication architectures are disclosed herein. An example apparatus may include a driver circuit configured to convert a plurality of bitstreams into a plurality of multilevel signals. A count of the plurality of bitstreams is greater than count of the plurality of multilevel signals. The driver circuit further configured to drive the plurality of multilevel signals onto a plurality of signal lines using individual drivers. A driver of the individual drivers is configured to drive more than two voltages.

Methods, apparatus, and systems for data communication over a multi-wire, multi-phase interface are disclosed. A method includes equalizing three-phase signals received from two wires of the interface to provide equalized signals, providing first and second difference signals by comparing voltage differences between the equalized signals with first and second reference voltage levels respectively, capturing delayed and undelayed versions of the second difference signal using flipflops triggered by different edges in the first difference signal, and adjusting an equalizing circuit until outputs of the first flipflops indicate that a ratio of low-frequency attenuation to high-frequency amplification has been achieved that enables information to be accurately decoded from the three-phase signals. The three-phase signal received from a first of the two wires is in a different phase than the three-phase signal received from a second of the two wires.

There is provided a method for supporting full duplex communication between a local PHY and a remote PHY via a single balanced pair of conductors. The method comprises for each PHY receiving a binary data stream and converting the binary data stream into a ternary symbol stream, wherein the conversion comprises: converting each nibble of the binary data stream directly into one respective triplet of ternary symbols for the ternary symbol stream, and limiting a maximum allowed number of consecutive positive symbols or consecutive negative symbols of the ternary symbol stream to 5 symbols or less.

A transmission line of the disclosure includes: a first line; a second line having characteristic impedance higher than characteristic impedance of the first line; and a third line. The transmission line transmits a symbol that corresponds to a combination of signals in the first line, the second line, and the third line.

Apparatuses and methods for multi-level communication architectures are disclosed herein. An example apparatus may include a driver circuit configured to convert a plurality of bitstreams into a plurality of multilevel signals. A count of the plurality of bitstreams is greater than count of the plurality of multilevel signals. The driver circuit further configured to drive the plurality of multilevel signals onto a plurality of signal lines using individual drivers. A driver of the individual drivers is configured to drive more than two voltages.

A process and/or apparatus capable of facilitating network communication via a directly accessible network interface controller (NIC) in a virtualized environment is disclosed. The process, in some embodiments, is able to receive a packet stream traveling from a virtual machine (VM) to a direct-access configured NIC (DCN). After forwarding from an embedded switch (eSwitch) of the DCN to a virtual switch (vSwitch) residing in a hypervisor or VM monitor in accordance with at least a portion of content of the packet stream, a processed packet stream is generated by the hypervisor in response to the packet stream. The processed packet stream is subsequently transmitted from the vSwitch to the eSwitch for facilitating the processed packet stream to reach its destination.