Geometric algebra (GA) is a mathematical framework that allows the compact description of geometric relationships and algorithms in many fields of science and engineering. The execution of these algorithms, however, requires significant computational power that made the use of GA impractical for many real-world applications. We describe how a GA-based formulation of the inverse kinematics problem from computer animation and robotics can be accelerated using reconfigurable FPGA-based computing and using a graphics processing unit (GPU). The practical evaluation covers not only the sheer compute performance, but also the energy efficiency
Clifford Algebra or Geometric Algebra (GA) is a simple and intuitive way to model geometric objects ...
Clifford algebra or geometric algebra (GA) is a simple and intuitive way to model geometric objects ...
Abstract — Geometric Algebra (GA) is a branch of mathematics that generalizes complex numbers and qu...
Geometric algebra (GA) is a mathematical framework that allows the compact description of geometric ...
Geometric algebra (GA) is a mathematical framework that allows the compact description of geometric ...
This paper presents a very efficient approach for algorithms developed based on conformal geometric ...
Geometric Algebra (GA) is a mathematical framework that allows a compact, geometrically intuitive de...
Geometric algebra covers a lot of other mathematical systems like vector algebra, complex numbers, P...
Geometric algebra covers a lot of other mathematical systems like vector algebra, complex numbers, P...
Geometric Algebra (GA) is a mathematical framework that allows a compact, geometrically intuitive de...
We present Gaalop (Geometric algebra algorithms optimizer) our tool for high performance computing b...
We present Gaalop (Geometric algebra algorithms optimizer) our tool for high performance computing b...
Geometric Algebra (GA), a generalization of quaternions and complex numbers, is a very powerful fram...
Abstract. Geometric Algebra (GA), a generalization of quaternions and complex numbers, is a very pow...
In computer graphics and robotics a lot of different mathematical systems like vector algebra, homog...
Clifford Algebra or Geometric Algebra (GA) is a simple and intuitive way to model geometric objects ...
Clifford algebra or geometric algebra (GA) is a simple and intuitive way to model geometric objects ...
Abstract — Geometric Algebra (GA) is a branch of mathematics that generalizes complex numbers and qu...
Geometric algebra (GA) is a mathematical framework that allows the compact description of geometric ...
Geometric algebra (GA) is a mathematical framework that allows the compact description of geometric ...
This paper presents a very efficient approach for algorithms developed based on conformal geometric ...
Geometric Algebra (GA) is a mathematical framework that allows a compact, geometrically intuitive de...
Geometric algebra covers a lot of other mathematical systems like vector algebra, complex numbers, P...
Geometric algebra covers a lot of other mathematical systems like vector algebra, complex numbers, P...
Geometric Algebra (GA) is a mathematical framework that allows a compact, geometrically intuitive de...
We present Gaalop (Geometric algebra algorithms optimizer) our tool for high performance computing b...
We present Gaalop (Geometric algebra algorithms optimizer) our tool for high performance computing b...
Geometric Algebra (GA), a generalization of quaternions and complex numbers, is a very powerful fram...
Abstract. Geometric Algebra (GA), a generalization of quaternions and complex numbers, is a very pow...
In computer graphics and robotics a lot of different mathematical systems like vector algebra, homog...
Clifford Algebra or Geometric Algebra (GA) is a simple and intuitive way to model geometric objects ...
Clifford algebra or geometric algebra (GA) is a simple and intuitive way to model geometric objects ...
Abstract — Geometric Algebra (GA) is a branch of mathematics that generalizes complex numbers and qu...