Abstract: Examples described herein include a graphics processing apparatus that includes a memory device and a display engine coupled to the memory device. The display engine is configured to apply dither on a region of an image and modify a first pixel of an image stored in the memory based on pseudo-random noise to reduce color banding impressions. In some examples, the pseudo-random noise is based on one or more of: local brightness estimation and one or more prior noise levels. In some examples, the display engine is to determine the local brightness estimation based on an average brightness of a pixel region surrounding the first pixel and the first pixel. In some examples, the display engine is configured to bound the pseudo-random noise based on a noise applied to a pixel in a same position as that of the first pixel in a prior frame within a same scene.

Abstract: The invention relates to an arrangement having a specimen plate (1) for freezing on a sample for processing in a microtome, which has an upper side (4) for freezing on the sample and a lower side (5), and having a transparent marking frame (6), having opaque regions forming a marking, which is arranged on the specimen plate (1); and to a method for assigning a sample after freezing onto that specimen plate; and to a method for identifying a sample that is frozen onto that specimen plate (1), the marking frame being arranged on the lower side (5) of the specimen plate (1) or so as to fit around the specimen plate (1).

Abstract: Examples described herein include a graphics processing apparatus that includes a memory device and a display engine coupled to the memory device. The display engine is configured to apply dither on a region of an image and modify a first pixel of an image stored in the memory based on pseudo-random noise to reduce color banding impressions. In some examples, the pseudo-random noise is based on one or more of: local brightness estimation and one or more prior noise levels. In some examples, the display engine is to determine the local brightness estimation based on an average brightness of a pixel region surrounding the first pixel and the first pixel. In some examples, the display engine is configured to bound the pseudo-random noise based on a noise applied to a pixel in a same position as that of the first pixel in a prior frame within a same scene.

Abstract: The invention relates to an arrangement having a specimen plate (1) for freezing on a sample for processing in a microtome, which has an upper side (4) for freezing on the sample and a lower side (5), and having a transparent marking frame (6), having opaque regions forming a marking, which is arranged on the specimen plate (1); and to a method for assigning a sample after freezing onto that specimen plate; and to a method for identifying a sample that is frozen onto that specimen plate (1), the marking frame being arranged on the lower side (5) of the specimen plate (1) or so as to fit around the specimen plate (1).

Abstract: A method for producing an arc detection signal on the basis of a plurality of observation signals comprises producing an arc detection part-signal for each of at least two observation signals. Producing each of the part-signals includes correlating the respective observation signal with a correlation signal by influencing the correlation signal with the respective observation, thereby producing a correlation result; producing or modifying a coefficient on the basis of the correlation result; and weighting the respective observation signal with the coefficient. The arc detection part-signals are added to form the arc detection signal.

Abstract: A method for producing an arc detection signal on the basis of a plurality of observation signals comprises producing an arc detection part-signal for each of at least two observation signals. Producing each of the part-signals includes correlating the respective observation signal with a correlation signal by influencing the correlation signal with the respective observation, thereby producing a correlation result; producing or modifying a coefficient on the basis of the correlation result; and weighting the respective observation signal with the coefficient. The arc detection part-signals are added to form the arc detection signal.