Control system for a gas turbine engine

What is claimed is: 1. A method for preventing a gas turbine engine restart in response to a severe mechanical failure, the method comprising: determining a first process condition, or a rate of change of the first process condition, exceeds a first failure threshold, the first failure threshold indicative of a severe mechanical failure of the gas turbine engine; determining a potential severe mechanical failure of the gas turbine engine based at least in part on the determined process condition, or the determined rate of change of the first process condition, exceeding the first failure threshold; confirming the potential severe mechanical failure of the gas turbine engine by determining both an accommodation time period following the determined potential severe mechanical failure has not elapsed and determining the gas turbine engine is operating in sub-idle conditions within the accommodation time period, wherein determining the gas turbine engine is operating in sub-idle conditions within the accommodation time period comprises determining the gas turbine engine has reached sub-idle conditions within the accommodation time period; and preventing an engine restart based at least in part on determining the gas turbine engine is operating in sub-idle conditions. 2. The method of claim 1 , wherein confirming the potential severe mechanical failure of the gas turbine engine further comprises determining the gas turbine engine is operating within a susceptibility window. 3. The method of claim 2 , wherein determining the gas turbine engine is operating within the susceptibility window comprises determining the gas turbine engine is operating below a predetermined fire threat flight altitude. 4. The method of claim 1 , wherein the first process condition is chosen from a group comprising: a low pressure spool speed, a high pressure spool speed, a compressor discharge pressure, and a component vibration. 5. The method of claim 1 , wherein determining the first process condition, or the rate of change of the first process condition, exceeds the first failure threshold comprises determining the rate of change of the first process condition exceeds the first failure threshold, and wherein the first process condition is chosen from a group comprising: a low pressure spool speed, a high pressure spool speed, and a compressor discharge pressure. 6. The method of claim 1 , further comprising: determining a second process condition and a third process condition; determining a rate of change of the second process condition and a rate of change of the third process condition, wherein confirming the potential severe mechanical failure comprises determining that at least one of the rate of change of the second process condition exceeds a second failure threshold or the rate of change of the third process condition exceeds a third failure threshold. 7. The method of claim 6 , wherein the first process condition, the second process condition, and the third process condition are chosen from the group comprising: a low pressure spool speed, a high pressure spool speed, and a compressor discharge pressure. 8. The method of claim 6 , wherein the third process condition is a compressor pressure, wherein determining the rate of change of the compressor pressure exceeds the third failure threshold further comprises determining a present value of the compressor pressure remains below a determined value. 9. The method of claim 1 , wherein preventing the engine restart comprises at least one of closing one or more fuel metering valves of a fuel system of the gas turbine engine or disabling an ignition system. 10. The method of claim 1 , wherein the severe mechanical failure is at least one of a fan blade out event or a shaft sheer event. 11. The method of claim 1 , wherein preventing the engine restart comprises preventing the engine restart in response to determining the potential severe mechanical failure of the gas turbine engine and confirming the potential severe mechanical failure of the gas turbine engine. 12. A method for preventing a gas turbine engine restart in response to a severe mechanical failure, the method comprising: determining a rate of change of a first process condition, a rate of change of a second process condition, and a third process condition; determining a potential severe mechanical failure of the gas turbine engine based on at least two of the following: the rate of change of the first process condition exceeding a first failure threshold, the rate of change of the second process condition exceeding a second failure threshold, or the third process condition, or a rate of change of the third process condition, exceeding a third failure threshold; confirming the potential severe mechanical failure of the gas turbine engine, wherein confirming the potential severe mechanical failure of the gas turbine engine comprises determining both an accommodation time period following the determined potential severe mechanical failure has not elapsed and determining the gas turbine engine is operating in sub-idle conditions within the accommodation time period, wherein determining the gas turbine engine is operating in sub-idle conditions within the accommodation time period comprises determining the gas turbine engine has reached sub-idle conditions within the accommodation time period; and preventing an engine restart based at least in part on determining the gas turbine engine is operating in sub-idle conditions. 13. The method of claim 12 , wherein determining the potential severe mechanical failure of the gas turbine engine is based at least in part on the rate of change of the third process condition, wherein the third process condition is a compressor pressure, and wherein determining the potential severe mechanical failure of the gas turbine engine is further based on determining a present compressor pressure remains below a determined pressure. 14. The method of claim 12 , wherein determining the potential severe mechanical failure of the gas turbine engine is based at least in part on the third process condition, wherein the third process condition is a component vibration. 15. The method of claim 12 , wherein the first process condition is a low pressure spool speed, wherein the second process condition is a high pressure spool speed, and wherein the third process condition is a compressor discharge pressure. 16. A control system for preventing a gas turbine engine restart in response to a severe mechanical failure, the system comprising one or more processors and one or more memory devices included with the gas turbine engine, the one or more memory devices storing instructions that when executed by the one or more processors cause the one or more processors to perform operations, the operations comprising: determining a rate of change of a first process condition exceeds a first failure threshold, the first failure threshold indicative of a severe mechanical failure of the gas turbine engine; determining a potential severe mechanical failure of the gas turbine engine based at least in part on the determined rate of change of the first process condition exceeding the first failure threshold; confirming the potential severe mechanical failure of the gas turbine engine by determining both an accommodation time period following the determined potential severe mechanical failure has not elapsed and determining the gas turbine engine is operating in sub-idle conditions within the accommodation time period, wherein determining the gas turbine engine is operating in sub-idle conditions within the accommodati