| 摘要 |
A processor-implemented method, system, and/or computer program product defines multiple dimensional data gravity wells on a conformed dimensional data gravity wells membrane. Non-dimensional data objects are associated with dimension objects to define conformed dimensional objects. The conformed dimensional objects are parsed into an n-tuple that includes a pointer to one of the non-dimensional data objects, a probability that a non-dimensional data object has been associated with a correct dimension object, and a weighting factor of importance of the conformed dimensional object. A virtual mass of each parsed conformed dimensional object is calculated, in order to define a shape of multiple dimensional data gravity wells that are created when conformed dimensional objects are pulled into each of the dimensional data gravity well frameworks on a conformed dimensional data gravity wells membrane. |
| 主权项 |
1. A processor-implemented method of defining multiple conformed dimensional data gravity wells on a conformed dimensional data gravity wells membrane, the processor-implemented method comprising:
receiving, by a processor, a data stream of non-dimensional data objects; applying, by the processor, a dimension object to one of the non-dimensional data objects to define a conformed dimensional object; parsing, by the processor, the conformed dimensional object into an n-tuple, wherein the n-tuple comprises a pointer to said one of the non-dimensional data objects, a probability that said one of the non-dimensional data objects has been associated with a correct dimensional label, a probability that said one of the non-dimensional data objects is uncorrupted, and a weighting factor of importance of the conformed dimensional object; calculating, by the processor, a virtual mass of a parsed conformed dimensional object, wherein the virtual mass of the parsed conformed dimensional object is derived from a formula of:
P(C)×Wt(S),where P(C) is the probability that 1) said one of the non-dimensional data objects has been associated with the correct dimensional label, 2) said one of the non-dimensional data objects is uncorrupted, and 3) the said one of the non-dimensional data objects has come from a data source whose data has been predetermined to be appropriate for storage in a particular dimensional data gravity well; and where Wt(S) is the weighting factor of importance of the conformed dimensional object;
creating, by the processor, multiple dimensional data gravity well frameworks on a conformed dimensional data gravity wells membrane, wherein each of the multiple dimensional data gravity well frameworks comprises at least one dimension object, and wherein the conformed dimensional data gravity wells membrane is a virtual mathematical membrane that is capable of supporting multiple dimensional data gravity wells; transmitting, by the processor, multiple parsed conformed dimensional objects as a streaming data flow to the conformed dimensional data gravity wells membrane; defining, by the processor, multiple conformed dimensional data gravity wells according to the virtual mass of multiple parsed conformed dimensional objects that are pulled into each of the dimensional data gravity well frameworks; and sorting, by one or more processors, the multiple parsed conformed dimensional objects from the streaming data flow by selectively pulling each of the multiple parsed conformed dimensional objects into the particular dimensional data gravity well in response to values from its n-tuple matching said at least one dimension object in said particular dimensional data gravity well. |
