A compression scheme can be selected for an input data stream based on characteristics of the input data stream. For example, when the input data stream is searched for pattern matches, input stream characteristics used to select a compression scheme can include one or more of: type and size of an input stream, a length of a pattern, a distance from a start of where the pattern is to be inserted to the beginning of where the pattern occurred previously, a gap between two pattern matches (including different or same patterns), standard deviation of a length of a pattern, standard deviation of a distance from a start of where the pattern is to be inserted to the beginning of where the pattern occurred previously, or standard deviation of a gap between two pattern matches. Criteria can be established whereby one or more characteristics are used to select a particular encoding scheme.

The present disclosure relates to an encoder and an encoding method thereof, as well as a decoder and a decoding method thereof, which can be used to reduce the number of wires necessary for data transmission and transmit more data at a faster speed with the same number of wires, thereby improving the efficiency of data transmission. The encoder may comprises two input terminals configured to receive two input signals simultaneously, each input terminal comprises a wire identifying a positive voltage and a wire identifying a negative voltage; and a plurality of output terminals, wherein each output terminal comprises a wire identifying a positive voltage and a wire identifying a negative voltage, a combination of the two input signals corresponds to one of the plurality of output terminals, and the output terminal to which the current combination of the two input signals corresponds is configured to output signals through the two wires of the output terminal.

The present disclosure relates to an encoder and an encoding method thereof, as well as a decoder and a decoding method thereof, which can be used to reduce the number of wires necessary for data transmission and transmit more data at a faster speed with the same number of wires, thereby improving the efficiency of data transmission. The encoder may comprises two input terminals configured to receive two input signals simultaneously, each input terminal comprises a wire identifying a positive voltage and a wire identifying a negative voltage; and a plurality of output terminals, wherein each output terminal comprises a wire identifying a positive voltage and a wire identifying a negative voltage, a combination of the two input signals corresponds to one of the plurality of output terminals, and the output terminal to which the current combination of the two input signals corresponds is configured to output signals through the two wires of the output terminal.

It is possible to know a guideline for adjusting the levels of three voltage thresholds of a PAM4 signal. An error detection device receives a measurement pattern including a pseudo random pattern having equal appearance frequencies of four levels, decodes the measurement pattern into a most significant bit sequence signal MSB and a least significant bit sequence signal LSB, based on three voltage thresholds Vth1, Vth2, and Vth3, identifies and counts, by a level counting unit, the four levels of the measurement pattern, based on the most significant bit sequence signal MSB and the least significant bit sequence signal LSB, and displays numerical values or bar graphs indicating ratios of the appearance frequencies of the four levels of the measurement pattern so as to be in the same order as waveform levels of the measurement pattern, based on a result of the counting.

The disclosure is directed to a system, device and method for data storage on implantable magnetizable fabric. The system includes implantable magnetizable fabric coupled to a graft segment of a prosthesis for being delivered into a body of a subject. The system includes information written on the implantable magnetizable fabric. The system further includes a magnetic detection device capable of, after the prosthesis is delivered into the body of the subject, detecting the implantable magnetizable fabric and accessing at least a portion of the information.

Mechanisms to reduce noise and/or energy consumption in PAM communication systems, utilizing conditional symbol substitution in each burst interval of a multi-data lane serial data bus.

Mechanisms to reduce noise and/or energy consumption in PAM communication systems, utilizing conditional symbol substitution in each burst interval of a multi-data lane serial data bus.

Disclosed herein is a system (10) for transmitting a data stream (12). The system (10) is configured to receive the data stream (12). The data stream (12) carries a plurality of orders that are destined for a market (24) configured for electronic trading. The system (10) is configured to transmit the data stream (12) carrying the plurality of orders. The system (10) is configured to process at least the plurality of orders (12) to determine trading risk information (14) indicative of trading risk. The system (10) is configured to determine if the trading risk indicated by the trading risk information (14) satisfies a trading risk condition (16). The system (10) is configured to cease transmitting the data stream (12) carrying the plurality of orders if the trading risk condition is determined to be satisfied and commenced transmitting another data stream (18) destined for the electronic market. Also disclosed herein is a method for transmitting a data stream (12).

Disclosed herein is a system (10) for transmitting a data stream (12). The system (10) is configured to receive the data stream (12). The data stream (12) carries a plurality of orders that are destined for a market (24) configured for electronic trading. The system (10) is configured to transmit the data stream (12) carrying the plurality of orders. The system (10) is configured to process at least the plurality of orders (12) to determine trading risk information (14) indicative of trading risk. The system (10) is configured to determine if the trading risk indicated by the trading risk information (14) satisfies a trading risk condition (16). The system (10) is configured to cease transmitting the data stream (12) carrying the plurality of orders if the trading risk condition is determined to be satisfied and commenced transmitting another data stream (18) destined for the electronic market. Also disclosed herein is a method for transmitting a data stream (12).

Various embodiments relate to a demodulator configured to receive a legacy signal and a secured signal using orthogonal frequency division multiplexing (OFDM) modulation, including: an analog to digital converter (ADC) configured to receive an OFDM modulated signal; an fast Fourier transform (FFT) unit configured to receive the output of the ADC; a frequency de-mapper configured to map the output of the FFT to legacy frame samples and secured signal samples including a secured hash; a sample to bit converter, a channel de-interleaver, and a channel decoder configured to process the legacy samples to produce a legacy frame; frame checking logic configured to check the validity of the legacy frame and produce a frame validity signal; a de-channelization module configured to convert the sample rate of secured signal samples; a channel decoder configured to decode the converted secured signal bits; a frame selector configured to select specific portions of the input legacy frame to produce a secured frame; a hash module configured to hash and encrypt the secured frame; a hash comparator configured to compare the received secured hash to the hashed and encrypted secured frame configured to produce a hash compare signal; and attack detection logic configured to determine when a received OFDM signal has been attacked based upon the hash compare signal.