From e2867019e1031f85da79b410471ad2bd4bf9d728 Mon Sep 17 00:00:00 2001 From: AurelienUoU Date: Mon, 30 Sep 2019 10:38:02 -0600 Subject: [PATCH] Typo fixing --- docs/source/arch_lang/interconnect.rst | 38 +++++++++++++------------- 1 file changed, 19 insertions(+), 19 deletions(-) diff --git a/docs/source/arch_lang/interconnect.rst b/docs/source/arch_lang/interconnect.rst index 7f13ace52..a6542ccb5 100644 --- a/docs/source/arch_lang/interconnect.rst +++ b/docs/source/arch_lang/interconnect.rst @@ -1,12 +1,12 @@ Interconnection extensions ========================== -This section will introduce extensions on the architecture description file about existing interconnection description. +This section introduces extensions on the architecture description file about existing interconnection description. Directlist ---------- -The original direct connections in the directlist section is doccumented here_. Its description is given below: +The original direct connections in the directlist section are documented here_. Its description is given below: .. _here: http://docs.verilogtorouting.org/en/latest/arch/reference/?highlight=directlist#direct-inter-block-connections @@ -32,36 +32,36 @@ Our extension include three more options: * **x_dir**: [``positive`` | ``negative``], specifies if the next cell to connect has a bigger or lower x value. Considering a coordinate system where (0,0) is the origin at the bottom left and *x* and *y* are positives: - * x_dir="positive": + * x_dir="positive": - * interconnection_type="column": a column will be connected to a column on the **right**, if it exists. + * interconnection_type="column": a column will be connected to a column on the **right**, if it exists. - * interconnection_type="row": the most on the **right** cell from a row connection will connect the most on the **left** cell of next row, if it exists. + * interconnection_type="row": the most on the **right** cell from a row connection will connect the most on the **left** cell of next row, if it exists. - * x_dir="negative": + * x_dir="negative": - * interconnection_type="column": a column will be connected to a column on the **left**, if it exists. + * interconnection_type="column": a column will be connected to a column on the **left**, if it exists. - * interconnection_type="row": the most on the **left** cell from a row connection will connect the most on the **right** cell of next row, if it exists. + * interconnection_type="row": the most on the **left** cell from a row connection will connect the most on the **right** cell of next row, if it exists. * **y_dir**: [``positive`` | ``negative``], specifies if the next cell to connect has a bigger or lower x value. Considering a coordinate system where (0,0) is the origin at the bottom left and *x* and *y* are positives: - * y_dir="positive": + * y_dir="positive": - * interconnection_type="column": the **bottom** cell of a column will be connected to the next column **top** cell, if it exists. + * interconnection_type="column": the **bottom** cell of a column will be connected to the next column **top** cell, if it exists. - * interconnection_type="row": a row will be connected on an **above** row, if it exists. + * interconnection_type="row": a row will be connected on an **above** row, if it exists. - * y_dir="negative": + * y_dir="negative": - * interconnection_type="column": the **top** cell of a column will be connected to the next column **bottom** cell, if it exists. + * interconnection_type="column": the **top** cell of a column will be connected to the next column **bottom** cell, if it exists. - * interconnection_type="row": a row will be connected on a row **below**, if it exists. + * interconnection_type="row": a row will be connected on a row **below**, if it exists. Example ------- -For this example, we will study a scan-chain implementation.The description could be: +For this example, we will study a scan-chain implementation. The description could be: .. code-block:: xml @@ -75,15 +75,15 @@ For this example, we will study a scan-chain implementation.The description coul .. figure:: ./figures/point2point_example.png - An example of scan-chain implementation + An example of scan-chain implementation -In this figure, the red arrows represent the initial direct connection. The green arrows represent the point to point connection to connect all the columns of CLB together. +In this figure, the red arrows represent the initial direct connection. The green arrows represent the point to point connection to connect all the columns of CLB. Truth table ----------- -A point to point connection can be applied in different ways than showed in the example section. To help the designer implement his own point to point connection, a truth table with our new parameters id provided below. +A point to point connection can be applied in different ways than showed in the example section. To help the designer implement his point to point connection, a truth table with our new parameters id provided below. :numref:`fig_p2p_trtable` provides all possible variable combination and the connection it will generate. @@ -91,4 +91,4 @@ A point to point connection can be applied in different ways than showed in the .. figure:: ./figures/point2point_truthtable.png - Point to point truth table + Point to point truth table