In this paper, we present an approach for multi-level parallel-in-time (PinT) electromagnetic transient (EMT) simulation. We evaluate the approach in the context of power electronics system-level simulation. While PinT approaches to power electronics simulations based on two-level algorithms have been thoroughly explored in the past, multi-level PinT approaches have not yet been investigated. We use the multigrid-reduction-in-time (MGRIT) method to parallelize a dedicated EMT simulation tool which is capable of switching between different converter models as it operates. The presented approach yields a time-parallel speed-up of up to 10 times compared to the sequential-in-time implementation. We also show that special care has to be taken t...
The electromagnetic transient (EMT) simulation of a arge-scale power system consumes so much computa...
System-level electromagnetic transient (EMT) simulation of large-scale power converters with high-or...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
The electromagnetic transient (EMT) simulation of multi-terminal DC (MTDC) grids requires a detailed...
The device-level electromagnetic transient (EMT) simulation with the nonlinear behavioural model (NB...
The complicated hybrid ac–dc network architecture creates new challenge for electromagnetic transien...
Parallel-in-time methods are emerging to accelerate the solution of time-consuming problems in diffe...
Abstract With the interconnection of regional grids and the increasing penetration of renewable ener...
The significant increase of variable energy resources in the power grid, coupled with the substantia...
Electromagnetic transient (EMT) simulation of power electronics conducted on the CPU slows down as t...
Converter-based generators are increasingly replacing classical synchronous generation, resulting in...
The efficiency of multiterminal dc (MTDC) grid simulation decreases with an expansion of its scale a...
The modular power electronic transformer (PET) faces difficulty carrying out microsecond-level elect...
The electromagnetic transient simulation of a power system with nonlinear characteristics is very ti...
Over the past decade, modular multilevel converters have evolved as the preferred choice for high vo...
The electromagnetic transient (EMT) simulation of a arge-scale power system consumes so much computa...
System-level electromagnetic transient (EMT) simulation of large-scale power converters with high-or...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
The electromagnetic transient (EMT) simulation of multi-terminal DC (MTDC) grids requires a detailed...
The device-level electromagnetic transient (EMT) simulation with the nonlinear behavioural model (NB...
The complicated hybrid ac–dc network architecture creates new challenge for electromagnetic transien...
Parallel-in-time methods are emerging to accelerate the solution of time-consuming problems in diffe...
Abstract With the interconnection of regional grids and the increasing penetration of renewable ener...
The significant increase of variable energy resources in the power grid, coupled with the substantia...
Electromagnetic transient (EMT) simulation of power electronics conducted on the CPU slows down as t...
Converter-based generators are increasingly replacing classical synchronous generation, resulting in...
The efficiency of multiterminal dc (MTDC) grid simulation decreases with an expansion of its scale a...
The modular power electronic transformer (PET) faces difficulty carrying out microsecond-level elect...
The electromagnetic transient simulation of a power system with nonlinear characteristics is very ti...
Over the past decade, modular multilevel converters have evolved as the preferred choice for high vo...
The electromagnetic transient (EMT) simulation of a arge-scale power system consumes so much computa...
System-level electromagnetic transient (EMT) simulation of large-scale power converters with high-or...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...