Abstract: A method for interpreting a prompt of a foundation model. An importance score of a prompt token of the foundation model is calculated for a current output token, the importance score relative to a set of importance scores of other tokens comprising an output importance score of a prior output token, the foundation model outputting a sequence of output tokens in response to a prompt, the prompt comprising the prompt token, the sequence of output tokens comprising the prior output token and the current output token, the prior output token occurring before the current output token in the sequence of output tokens. The importance score of the prompt token is normalized relative to the set of importance scores excluding the output importance score. A cumulative importance score of the prompt token is calculated based on the normalized importance score.

Abstract: A computerized method has the steps of: at a first timestep: obtaining a first candidate token, the first candidate token being generated by a foundation model based on an input; and based on a similarity comparison between the first candidate token and one or more sample tokens, allowing the foundation model to use the first candidate token for generating an output.

Abstract: Disclosed is a short-wave infrared spectrum detector, including: a photosensitive chip, including a plurality of detection pixels; a substrate; and a wavelength division component array, including a plurality of wavelength division pixels, each of the plurality of wavelength division pixels corresponding to a narrowband transmission spectrum, wherein the photosensitive chip and the wavelength division component array are monolithically integrated on both sides of the substrate, and an orthographic projection of each of the plurality of wavelength division pixels on the substrate covers an orthographic projection of at least one detection pixel on the substrate. The wavelength division structure and the photosensitive chip are integrated, so that each pixel has the ability of frequency-selective light spectrum detection, and a short-wave infrared spectrum detector integrated with wavelength division and detection is formed, realizing the miniaturization of the short-wave infrared spectral detection system.

Abstract: A method and system for calculating main-loop parameters of an SLCC, and a readable medium.

Abstract: Disclosed is an interference structure, including an interference film layer. The interference film layer includes a plurality of regions, where the plurality of regions includes a transparent region made of transparent material. In a direction perpendicular to the interference film layer, a thickness of at least one region in the plurality of regions is different from a thickness of a region other than the at least one region in the plurality of regions. In other words, in the present disclosure, by including the plurality of regions with different thicknesses in the interference film layer, it is possible to process the incident light into the plurality of beams of interference light corresponding to the incident light, without the need for multiple optical lenses in traditional interference structures. Therefore, the structure of the interference structure in the present disclosure is simple and easy to miniaturize.

Abstract: Disclosed are a method and a device for reconstructing a spectrum, a spectrometer, a computer-readable storage medium, and an electronic device, and solves a problem of poor anti-noise ability of the method for reconstructing a spectrum. According to a feature that a spectrum must be positive, the present application converts the negative spectral value in the spectral data to be processed into positive spectral value by the objective function, so that the anti-noise ability of an iterative solution process of the objective function may be improved, and thus accuracy of the reconstructed spectral data may be improved.

Abstract: Disclosed is a short-wave infrared spectrum detector, including: a photosensitive chip, including a plurality of detection pixels; a substrate; and a wavelength division component array, including a plurality of wavelength division pixels, each of the plurality of wavelength division pixels corresponding to a narrowband transmission spectrum, wherein the photosensitive chip and the wavelength division component array are monolithically integrated on both sides of the substrate, and an orthographic projection of each of the plurality of wavelength division pixels on the substrate covers an orthographic projection of at least one detection pixel on the substrate. The wavelength division structure and the photosensitive chip are integrated, so that each pixel has the ability of frequency-selective light spectrum detection, and a short-wave infrared spectrum detector integrated with wavelength division and detection is formed, realizing the miniaturization of the short-wave infrared spectral detection system.

Abstract: The disclosure relates to the field of vehicle energy recovery devices, and particularly discloses a vehicle shock absorber capable of generating electricity which includes a shock absorber body, a piston rod and a bearing spring. The shock absorber body includes an inner cylinder and an outer cylinder, and an oil storage chamber communicated with an inner cavity of the inner cylinder is formed between the inner cylinder and the outer cylinder. Both ends of the bearing spring are respectively connected to an upper end of the piston rod and the outer cylinder. A bottom end of the piston rod is connected to a piston in sliding fit with the inner cylinder, and a coil is sealedly disposed in the piston. Opposite sides inside the oil storage chamber are each provided with a permanent magnet with an opposite magnetic pole, and the coil is connected to an electrode lead.

Abstract: Provided are a method and apparatus for monitoring a PDCCH, and a base station and a user equipment. On a base station side, the method comprises: configuring an association relationship between a notification signal or signaling and a PDCCH; and sending the notification signal or signaling associated with the PDCCH to a user equipment to notify the user equipment to start monitoring the PDCCH. On a user equipment side, the method comprises: receiving a notification signal or signaling which is associated with a PDCCH and sent by a base station; and starting to monitor the PDCCH according to the notification signal or signaling associated with the PDCCH. By means of the present invention, the signaling overhead and the power consumption of a user equipment can be reduced.

Abstract: The disclosure relates to the field of vehicle energy recovery devices, and particularly discloses a vehicle shock absorber capable of generating electricity which includes a shock absorber body, a piston rod and a bearing spring. The shock absorber body includes an inner cylinder and an outer cylinder, and an oil storage chamber communicated with an inner cavity of the inner cylinder is formed between the inner cylinder and the outer cylinder. Both ends of the bearing spring are respectively connected to an upper end of the piston rod and the outer cylinder. A bottom end of the piston rod is connected to a piston in sliding fit with the inner cylinder, and a coil is sealedly disposed in the piston. Opposite sides inside the oil storage chamber are each provided with a permanent magnet with an opposite magnetic pole, and the coil is connected to an electrode lead.

Abstract: Taught herein is an integragted narrow bandpass filter array and a method of its fabrication. The filter array is a Fabry-Perot type of filter array, wherein the pass band changes with the thickness of the spacer layer. The integrated filter array comprises a substrate, a lower mirror stack, a spacer array, and an upper mirror stack. The spacer array is an array of varied thicknesses formed using a combinatorial deposition technique. The spacer array is used to control the pass band of each mini-size narrow bandpass filter and realizes the integration of narrow bandpass filters with different pass bands on a single substrate. The merit of this technique lies in its fabrication efficiency and finished product rate which are much higher than for conventional methods. The filter array is completely matched with detector arrays and functional in most of the important optical ranges.

Abstract: Taught herein is an integragted narrow bandpass filter array and a method of its fabrication. The filter array is a Fabry-Perot type of filter array, wherein the pass band changes with the thickness of the spacer layer. The integrated filter array comprises a substrate, a lower mirror stack, a spacer array, and an upper mirror stack. The spacer array is an array of varied thicknesses formed using a combinatorial deposition technique. The spacer array is used to control the pass band of each mini-size narrow bandpass filter and realizes the integration of narrow bandpass filters with different pass bands on a single substrate. The merit of this technique lies in its fabrication efficiency and finished product rate which are much higher than for conventional methods. The filter array is completely matched with detector arrays and functional in most of the important optical ranges.