diff --git a/docs/flows/f4pga.rst b/docs/flows/f4pga.rst
index e9cc622..13fa879 100644
--- a/docs/flows/f4pga.rst
+++ b/docs/flows/f4pga.rst
@@ -134,7 +134,7 @@ Technology mapping in F4PGA toolchain
.. _Xilinx 7 Series FPGAs Clocking Resources User Guide: https://www.xilinx.com/support/documentation/user_guides/ug472_7Series_Clocking.pdf#page=38
.. _VTR FPGA Architecture Description: https://docs.verilogtorouting.org/en/latest/arch/
-.. _techmap section in the Yosys Manual: http://www.clifford.at/yosys/files/yosys_manual.pdf#page=153
+.. _techmap section in the Yosys Manual: http://yosyshq.net/yosys/files/yosys_manual.pdf#page=153
It is important to understand the connection between the synthesis and
implementation tools used in the F4PGA toolchain. As mentioned before,
@@ -405,8 +405,8 @@ More information
----------------
Additional information about Yosys can be found on the `Yosys Project Website
-`_ , or in `Yosys Manual
-`_. You can also compile
+`_ , or in `Yosys Manual
+`_. You can also compile
one of the tests described in Getting Started section and watch the log file
to understand which operations are performed by Yosys.
diff --git a/docs/how.rst b/docs/how.rst
index b66ca85..c5da1ec 100644
--- a/docs/how.rst
+++ b/docs/how.rst
@@ -33,12 +33,12 @@ Thus, F4PGA serves as an umbrella project for several activities.
The central resources are the so-called FPGA "architecture definitions" (i.e. documentation of how specific FPGAs work
internally) and the "interchange schema" (for logical and physical netlists).
Those definitions serve as input to frontend and backend tools, such as
-`Yosys ➚ `__,
+`Yosys ➚ `__,
:gh:`nextpnr ➚ ` and `Verilog to Routing ➚ `_.
They are created within separate collaborating projects targeting different FPGAs:
* :doc:`Project X-Ray ➚ ` for Xilinx 7-Series
-* `Project IceStorm ➚ `__ for Lattice iCE40
+* `Project IceStorm ➚ `__ for Lattice iCE40
* :doc:`Project Trellis ➚ ` for Lattice ECP5 FPGAs
More information can be found at :doc:`F4PGA Architecture Definitions ➚ ` and :doc:`FPGA Interchange ➚ `.
@@ -55,7 +55,7 @@ To prepare a working bitstream for a particular FPGA chip, the toolchain goes th
This stage is typically pre-built and installed as assets.
However, developers contributing to the bitstream documentation might build it.
-* Then, logic synthesis is carried out in the `Yosys ➚ `__ framework, which expresses the
+* Then, logic synthesis is carried out in the `Yosys ➚ `__ framework, which expresses the
user-provided hardware description by means of the block and connection types available in the chosen chip.
* The next step is implementation.