Evaluating print nozzle condition

We claim: 1. A method for evaluating a condition of a print nozzle, the method comprising: measuring impedances across the print nozzle; registering onto a print die circuitry of the print nozzle, at least at a first predetermined time instant and at a second predetermined time instant, a first test result and a second test result, respectively, obtained based on the measured impedances, wherein each of the first predetermined time instant and the second predetermined time instant is measured with respect to a firing pulse; and evaluating the condition of the print nozzle based on the first test result and the second test result, wherein evaluating the condition of the print nozzle comprises determining that the print nozzle is functioning properly in response to the first test result having a logical high output, and the second test result having a logical low output. 2. The method as claimed in claim 1 , wherein the first test result is obtained by comparing a voltage corresponding to the impedance measured at the first predetermined time instant with a threshold voltage. 3. The method as claimed in claim 2 , wherein the second test result is obtained by comparing a voltage corresponding to the impedance measured at the second predetermined time instant with the threshold voltage. 4. The method as claimed in claim 1 , wherein the first test result and the second test result are in the form of a logical output. 5. The method as claimed in claim 1 , wherein: the first test result is indicative of whether a drive bubble persisted at the first predetermined time instant; and the second test result is indicative of whether the drive bubble collapsed and ink within an ink chamber associated with the print nozzle replenished by the second predetermined time instant. 6. The method as claimed in claim 1 , wherein the first predetermined time instant and the second predetermined time instant are measured with respect to a firing pulse based on a clocked signal. 7. A print head for a printer, the print head comprising: a print nozzle; a print die; a drive bubble detect module provided onto the print die of the print head and communicatively coupled to the print nozzle, wherein the drive bubble detect module comprises: a first latch on the print die to register, at a first predetermined time instant, a first test result obtained based on a voltage measured across the print nozzle, a second latch on the print die to register, at a second predetermined time instant different from the first predetermined time instant, a second test result obtained based on a voltage measured across the print nozzle, and the drive bubble detect module to evaluate a condition of the print nozzle based on the first test result and the second test result, wherein the drive bubble detect module is to determine that the print nozzle is functioning properly in response to the first test result having a logical high output, and the second test result having a logical low output; and a timing circuitry coupled to the drive bubble detect module and to activate the drive bubble detect module, at the first predetermined time instant and the second predetermined time instant, to register respectively the first test result and the second test result. 8. A print head for a printer, the print head comprising: a print nozzle; a drive bubble detect module provided onto a print die of the print head and communicatively coupled to the print nozzle, wherein the drive bubble detect module is to: register onto the print die, at a first predetermined time instant, a first test result obtained based on a voltage measured across the print nozzle, register onto the print die, at a second predetermined time instant, a second test result obtained based on a voltage measured across the print nozzle, wherein the drive bubble detect module is to provide each of the first test result and the second test result as a binary output, and determine a condition of the print nozzle based on the first test result and the second test result, wherein the drive bubble detect module is to determine the print nozzle to be functioning properly when the first test result is a logical high output and the second test result is a logical low output; and a timing circuitry coupled to the drive bubble detect module and to activate the drive bubble detect module, at the first predetermined time instant and the second predetermined time instant, to register respectively the first test result and the second test result. 9. The print head as claimed in claim 7 , wherein the timing circuitry is to measure the first predetermined time instant and the second predetermined time instant with respect to an occurrence of a firing pulse. 10. The print head as claimed in claim 7 , wherein the drive bubble detect module is further communicatively coupled to a time repository, and wherein the timing circuitry further comprises a multiplexer for obtaining one of the first predetermined time instant and the second predetermined time instant. 11. The print head as claimed in claim 8 , wherein the drive bubble detect module further comprises a first latch to register the first test result, and a second latch to register the second test result. 12. A printer comprising: a print head as claimed in claim 7 . 13. The print head as claimed in claim 7 , wherein the timing circuitry is to measure the first predetermined time instant and the second predetermined time instant based on a number of clocked cycles with respect to a firing pulse. 14. The method of claim 1 , wherein registering the first test result and the second test result onto the print die circuitry comprises storing the first test result and the second test result in latches on a print head die of the print die circuitry. 15. The method of claim 1 , wherein the logical high output of the first test result indicates that a drive bubble has formed in the print nozzle, and the logical low output of the second test result indicates that ink is present in the print nozzle after collapse of the drive bubble. 16. The method of claim 1 , wherein the evaluating is performed by the print die circuitry that is part of a print head die. 17. The method of claim 16 , wherein the print head die is separate from a processor of a printer system. 18. The print head of claim 7 , wherein the logical high output of the first test result indicates that a drive bubble has formed in the print nozzle, and the logical low output of the second test result indicates that ink is present in the print nozzle after collapse of the drive bubble.