Offsets on weight-adjustment multipliers cause not only output static errors but also weight drifts, which are hard to compensate. Therefore weight-adjustment ...
The effects of multiplier output offsets on on-chip learning are analyzed. ... Therefore weight-adjustment multipliers are most critical for analog neuro-chips ...
Offsets on weight-adjustment multipliers cause not only output static errors but also weight drifts, which are hard to compensate. Therefore weight-adjustment ...
The deformed equations are investigated to show how the offsets degrade learning performance and under which conditions the neuron's output fails to converge.
Missing: Neuro- Chips.
The effects of multiplier output offsets on on-chip learning are analyzed. Offsets on signal feed-forward multipliers are equivalent to sigmoid biases and ...
Active noise canceling is demonstrated by analog neuro-chips with on-chip learning capability. ... Effects of multiplier offsets on on-chip learning for analog ...
Effects of multiplier output offsets on on-chip learning for analog neuro-chips ... S. Y. Lee · Neural Processing Letters (NPLE), Volume 4, Issue 1Sept. 1996 ...
Yoon-Kyung Choi, Ki-Hwan Ahn, Soo-Young Lee: Effects of Multiplier Output Offsets on On-Chip Learning for Analog Neuro-Chips. 1-8.
Volume 4, Number 1, 1996 · Yoon Kyung Choi, Ki-Hwan Ahn, Soo-Young Lee: Effects of Multiplier Output Offsets on On-Chip Learning for Analog Neuro-Chips.
The performance degradation with neuro-chips may come from inherent limitations of analogue chips such as limited dynamic ranges of synaptic weights and signals ...