Device and method to measure the DMD and other parameters of a multicore optical fiber

What is claimed is: 1. A method of simultaneously measuring at least one parameter of a plurality of cores in at least one optical fiber to be tested, comprising the steps of: a) preparing an input tester having i) a plurality of tester signal inputs with a geometry substantially matching at least a portion of the core geometry of the fiber to be tested, and ii) at least one test input signal source coupled to the plurality of tester signal inputs; b) aligning the plurality of tester signal inputs with the corresponding plurality of cores in the fiber to be tested at a first end of the fiber to be tested; c) firing at least one test input signal from the test input signal source through the input tester to the plurality of cores in the fiber being tested; and d) measuring the output of the test input signal emerging from a second end of the fiber being tested, wherein the input tester includes a laser and the tester signal inputs include apertures in a shield disposable between the laser and the first end of the fiber to be tested. 2. A method of simultaneously measuring at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 1 , wherein said measuring step d) is performed by a second tapered multicore coupler. 3. A method of simultaneously measuring at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 1 , wherein said measuring step d) is performed by a charge-coupled device. 4. A method of simultaneously measuring at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 1 , wherein the parameter being measured is at least one of DMD, S 2 , modal content, spectral attenuation, chromatic dispersion, group delay, or polarization mode dispersion. 5. A method of simultaneously measuring at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 1 , further comprising the step of moving one of the input tester or the fiber to be tested with respect to the other so as to scan the test input signal with respect to the fiber to be tested. 6. An apparatus adapted to simultaneously measure at least one parameter of a plurality of cores in at least one optical fiber to be tested, comprising: an input tester disposable at a first end of the fiber to be tested and alignable with the corresponding plurality of cores in the fiber to be tested, having: a plurality of tester signal inputs with a geometry substantially matching at least a portion of the core geometry of the fiber to be tested, and at least one test input signal source coupled to said plurality of tester signal inputs; and a signal measuring device alignable at a second end of the fiber being tested and adapted to measure the output of the test input signal emerging from the fiber being tested, wherein said input tester further comprises a laser and said tester signal inputs include apertures in a shield disposable between said laser and the first end of the fiber to be tested. 7. An apparatus adapted to simultaneously measure at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 6 , further comprising at least one lens disposed between said shield and the first end of the fiber to be tested, said lens projecting light from said laser that passes through said apertures onto the first end of the fiber to be tested. 8. An apparatus adapted to simultaneously measure at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 6 , wherein said measuring device comprises a second tapered multicore coupler. 9. An apparatus adapted to simultaneously measure at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 6 , wherein said measuring device comprises a charge-coupled device. 10. An apparatus adapted to simultaneously measure at least one parameter of a plurality of cores in a multicore optical fiber to be tested according to claim 6 , further comprising a translational scanning mechanism coupleable to at least one of said input tester or the fiber to be tested so as to scan said test input signal with respect to the fiber to be tested.