Parallelism Spec. learn how to use parallelism tolerance in mechanical part drawings to specify the orientation of features with respect to datums. learn how to measure parallelism, a requirement that two lines or planes are parallel, using a dial gauge or a coordinate measuring machine. learn what parallelism is in gd&t and how to use it to control the alignment of surfaces or axes to datums. It is useful in specifying components such as windows and polarizers. Parallelism is an orientation control. determining parallelism means finding that two opposing sides of an object, which are supposed to be parallel, are consistently far apart at all positions. Perfect parallelism occurs when a surface is exactly parallel to a datum. To test this, you need to measure the distance between the two surfaces at multiple positions. Find out the difference between surface parallelism and axis parallelism, and how to measure them with a reference plate. learn how to use parallelism, a 3d gd&t orientation tolerance, to control the alignment of features in respect to a datum element. See examples, symbols, and diagrams of parallelism control. See the difference between surface and axis parallelism, the tolerance zone, the feature control frame and the measurement methods. parallelism describes how parallel two surfaces are with respect to each other.
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To test this, you need to measure the distance between the two surfaces at multiple positions. Parallelism is an orientation control. See examples, symbols, and diagrams of parallelism control. learn how to measure parallelism, a requirement that two lines or planes are parallel, using a dial gauge or a coordinate measuring machine. See the difference between surface and axis parallelism, the tolerance zone, the feature control frame and the measurement methods. parallelism describes how parallel two surfaces are with respect to each other. Perfect parallelism occurs when a surface is exactly parallel to a datum. learn what parallelism is in gd&t and how to use it to control the alignment of surfaces or axes to datums. learn how to use parallelism, a 3d gd&t orientation tolerance, to control the alignment of features in respect to a datum element. It is useful in specifying components such as windows and polarizers.
FIGURE CNN parallelization techniques. (A) Data parallelism. (B) Model
Parallelism Spec parallelism describes how parallel two surfaces are with respect to each other. learn what parallelism is in gd&t and how to use it to control the alignment of surfaces or axes to datums. learn how to use parallelism, a 3d gd&t orientation tolerance, to control the alignment of features in respect to a datum element. learn how to use parallelism tolerance in mechanical part drawings to specify the orientation of features with respect to datums. parallelism describes how parallel two surfaces are with respect to each other. Parallelism is an orientation control. See examples, symbols, and diagrams of parallelism control. learn how to measure parallelism, a requirement that two lines or planes are parallel, using a dial gauge or a coordinate measuring machine. To test this, you need to measure the distance between the two surfaces at multiple positions. determining parallelism means finding that two opposing sides of an object, which are supposed to be parallel, are consistently far apart at all positions. Find out the difference between surface parallelism and axis parallelism, and how to measure them with a reference plate. Perfect parallelism occurs when a surface is exactly parallel to a datum. See the difference between surface and axis parallelism, the tolerance zone, the feature control frame and the measurement methods. It is useful in specifying components such as windows and polarizers.
