Method for managing high dimensional data and displaying associated data dynamically and contrastively
A high-dimensional data and display method technology, applied in the direction of electrical digital data processing, special data processing applications, instruments, etc., can solve the problems of rigid table structure, data table cannot be updated in time, and users cannot quickly obtain it
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Embodiment 1
[0104] Example 1: The user adds a set of high-dimensional data characterized by "variable temperature and variable pressure", the total number of batches is 1, the maximum number of temperature cycles is 3, the maximum number of pressure cycles is 3, and the maximum number of surface-throat ratio cycles is 4. in the database. The specific implementation process is as follows:
[0105] 1] The user uses the parameter input device of the PC to select the phenotype logo on the man-machine interface as "variable temperature and variable pressure", the total number of input batches is 1, the maximum number of temperature cycles is 3, the maximum number of pressure cycles is 3, surface throat If the maximum number of cycles is 4, submit it and save it in the corresponding field in the burning rate base table of the burning rate instrument;
[0106] 2) Determine the gauge variable, take batch as the first gauge variable, temperature as the vertical gauge variable, surface-throat rati...
Embodiment 2
[0121] Example 2: Add a set of high-dimensional data with the characteristics of "variable temperature and equal pressure", the total batch number of 1, the maximum temperature cycle number of 3, the pressure maximum cycle number of 3, and the surface-throat ratio maximum cycle number of 4 to the database middle.
[0122] The first few steps of the implementation process in this example are the same as steps 1], 2], 3.1], 3.2], 3.4], 4] in Example 1, and the difference from Example 1 lies in step 3.3. Step 3.3 of the present embodiment is as follows:
[0123] Since the condition becomes "variable temperature and constant pressure", the changing law of pressure is consistent at different temperatures and different batches, so the pressure control only needs to generate one set, the pressure value of subsequent records and the set pressure of the first set of records The values are exactly the same, the generation of the burning rate control is consistent with the formation l...
Embodiment 3
[0124] Example 3: The user adds a set of high-dimensional data characterized by "variable temperature and constant pressure", the total number of batches is 1, the maximum number of temperature cycles is 3, the maximum number of pressure cycles is 3, and the maximum number of surface-throat ratio cycles is 4. in the database.
[0125] Under the condition of variable temperature and constant pressure, since the pressure remains constant at different temperatures and different surface-throat ratios, the maximum number of pressure cycles is forced to be set to 1. The steps of forming a 5-dimensional high-dimensional table in this example are the same as those in Example 2. So after the cycle is completed, 1 batch control, 3 temperature controls, 1 pressure control, 4 surface-throat ratio controls and 12 burning rate controls are generated. The results are as follows Figure 5 shown.
[0126] 2. Edit high-dimensional data:
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